summaryrefslogtreecommitdiff
path: root/data/db.bib
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@article{csma,
  author       = {Kleinrock, L. and Tobagi, F.A.},
  date         = {1975-12},
  doi          = {10.1109/TCOM.1975.1092768},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {Computer communications;Multiple-access communications;Packet switching;Radio communication;Bandwidth;Computer networks;Costs;Multiaccess communication;Packet radio networks;Packet switching;Radio broadcasting;Radio communication;Telephony;Wire},
  number       = {12},
  pages        = {1400--1416},
  title        = {Packet Switching in Radio Channels: Part I–Carrier Sense Multiple-Access Modes and Their Throughput-Delay Characteristics},
  volume       = {23},
}

@inproceedings{aloha,
  author    = {Abramson, Norman},
  location  = {Houston, Texas},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1478462.1478502},
  booktitle = {Proceedings of the November 17-19, 1970, Fall Joint Computer Conference},
  date      = {1970},
  doi       = {10.1145/1478462.1478502},
  pages     = {281--285},
  series    = {AFIPS '70 (Fall)},
  title     = {THE ALOHA SYSTEM: Another Alternative for Computer Communications},
}

@article{btma,
  author       = {Tobagi, F.A. and Kleinrock, L.},
  date         = {1975-12},
  doi          = {10.1109/TCOM.1975.1092767},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {Computer communications;Multiple-access communications;Packet switching;Radio communication;Bandwidth;Computer vision;Degradation;Delay;Helium;Information analysis;Multiaccess communication;Packet switching;Protocols;Radio broadcasting},
  number       = {12},
  pages        = {1417--1433},
  title        = {Packet Switching in Radio Channels: Part II–The Hidden Terminal Problem in Carrier Sense Multiple-Access and the Busy-Tone Solution},
  volume       = {23},
}

@article{prma,
  author       = {Goodman, D.J. and Valenzuela, R. and Gayliard, K.T. and Ramamurthi, B.},
  date         = {1989-08},
  doi          = {10.1109/26.31190},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {multi-access systems;packet switching;protocols;bandwidth efficiency;channel time slots;computer simulations;listening test;local wireless communications;packet reservation multiple access;periodic information terminal;signaling;speech terminals;uncontested transmission;voice quality;Bandwidth;Computer simulation;Filtering;Nonlinear filters;Speech;Telephony;Timing jitter;Velocity measurement;Wireless communication;Wireless sensor networks},
  number       = {8},
  pages        = {885--890},
  title        = {Packet reservation multiple access for local wireless communications},
  volume       = {37},
}

@inproceedings{maca,
  author    = {Karn, Phil},
  booktitle = {ARRL/CRRL Amateur radio 9th computer networking conference},
  date      = {1990},
  pages     = {134--140},
  title     = {MACA-a new channel access method for packet radio},
  volume    = {140},
}

@article{macaw,
  author       = {Bharghavan, Vaduvur and Demers, Alan and Shenker, Scott and Zhang, Lixia},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/190809.190334},
  date         = {1994-10},
  doi          = {10.1145/190809.190334},
  issn         = {0146-4833},
  journaltitle = {SIGCOMM Comput. Commun. Rev.},
  number       = {4},
  pages        = {212--225},
  title        = {MACAW: A Media Access Protocol for Wireless LAN's},
  volume       = {24},
}

@inproceedings{fama,
  author    = {Fullmer, Chane L. and Garcia-Luna-Aceves, J. J.},
  location  = {Cambridge, Massachusetts, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/217382.217458},
  booktitle = {Proceedings of the Conference on Applications, Technologies, Architectures, and Protocols for Computer Communication},
  date      = {1995},
  doi       = {10.1145/217382.217458},
  isbn      = {0-89791-711-1},
  pages     = {262--273},
  series    = {SIGCOMM '95},
  title     = {Floor Acquisition Multiple Access (FAMA) for Packet-radio Networks},
}

@inproceedings{macabi,
  author    = {Talucci, F. and Gerla, M. and Fratta, L.},
  booktitle = {Personal, Indoor and Mobile Radio Communications, 1997. Waves of the Year 2000. PIMRC '97., The 8th IEEE International Symposium on},
  date      = {1997-09},
  doi       = {10.1109/PIMRC.1997.630970},
  keywords  = {IEEE standards;access protocols;multi-access systems;network topology;packet radio networks;radio receivers;telecommunication standards;traffic;wireless LAN;IEEE 802.11 wireless LAN standard;MACA By Invitation;MACA-BI;Multiple Access Collision Avoidance;RTS/CTS handshake;data collision free property;efficiency;hidden terminal conditions;multihop topologies;multiple access protocols;packet transmission time;predictable traffic characteristics;radio turn-around time;receiver oriented access protocol;request to send/clear to send handshake;simulation results;stationary traffic characteristics;wireless MAC protocol;wireless multihop networks;Access protocols;Collision avoidance;Media Access Protocol;Predictive models;Receivers;Road accidents;Topology;Traffic control;Wireless LAN;Wireless application protocol},
  pages     = {435--439 vol.2},
  title     = {MACA-BI (MACA By Invitation)-a receiver oriented access protocol for wireless multihop networks},
  volume    = {2},
}

@article{fprp,
  author       = {Zhu, Chenxi and Corson, M. S.},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1023/A:1016683928786},
  date         = {2001-09},
  doi          = {10.1023/A:1016683928786},
  issn         = {1022-0038},
  journaltitle = {Wirel. Netw.},
  keywords     = {ad hoc networks,broadcast slot assignment,graph coloring,slotted-Aloha,time-division-multiple-access},
  number       = {4},
  pages        = {371--384},
  title        = {A Five-Phase Reservation Protocol (FPRP) for Mobile Ad Hoc Networks},
  volume       = {7},
}

@inproceedings{pamas,
  author    = {Singh, S. and Raghavendra, C.S.},
  booktitle = {Personal, Indoor and Mobile Radio Communications, 1998. The Ninth IEEE International Symposium on},
  date      = {1998-09},
  doi       = {10.1109/PIMRC.1998.733533},
  keywords  = {access protocols;multi-access systems;packet radio networks;MAC protocol;ad hoc network;multi-access protocol;multihop radio networks;packet radio networks;power efficient protocol;simulation results;Access protocols;Ad hoc networks;Computer networks;Energy consumption;Media Access Protocol;Power engineering computing;Radio network;Radio networks;Spread spectrum communication;Throughput},
  pages     = {153--157 vol.1},
  title     = {Power efficient MAC protocol for multihop radio networks},
  volume    = {1},
}

@inproceedings{markowski,
  author    = {Markowski, M.J. and Sethi, A.S.},
  booktitle = {Real-Time Technology and Applications Symposium, 1998. Proceedings. Fourth IEEE},
  date      = {1998-06},
  doi       = {10.1109/RTTAS.1998.683187},
  keywords  = {access protocols;data communication;real-time systems;wireless LAN;MAC protocol;ad hoc wireless network;ad hoc wireless networks;fully distributed wireless MAC transmission;non real time data;overloaded conditions;protocol model;real time data transmission;real time requirements;real time services;real time types;splitting protocols;Computer networks;Electronic switching systems;Laboratories;Media Access Protocol;Real time systems;Resource management;Stability;Wire;Wireless application protocol;Wireless networks},
  pages     = {49--57},
  title     = {Fully distributed wireless MAC transmission of real-time data},
}

@inproceedings{hrma,
  author    = {Yang, Zhenyu and Garcia-Luna-Aceves, J.J.},
  booktitle = {INFOCOM '99. Eighteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE},
  date      = {1999-03},
  doi       = {10.1109/INFCOM.1999.749268},
  issn      = {0743-166X},
  keywords  = {access protocols;data communication;frequency hop communication;hypercube networks;land mobile radio;multi-access systems;multiuser channels;network topology;packet radio networks;spread spectrum communication;synchronisation;FHSS;ISM band;Metricom Ricochet system;average packet length;collision-free data transmission;dwell time duration;frequency hopping sequence;half-duplex radios;handshake mechanism;hidden terminals;hop-reservation multiple access;hypercube network topology;mobile environment;multi-hop packet radio networks;multichannel MAC protocol;multichannel slotted ALOHA protocol;reservation mechanism;throughput;time synchronization;traffic-load ranges;variable-length packets;very slow frequency-hopping spread spectrum;wireless ad-hoc networks;Access protocols;Ad hoc networks;Data communication;Frequency synchronization;Hypercubes;Media Access Protocol;Packet radio networks;Spread spectrum communication;Throughput;Wireless application protocol},
  pages     = {194--201 vol.1},
  title     = {Hop-reservation multiple access (HRMA) for ad-hoc networks},
  volume    = {1},
}

@inproceedings{mcsma,
  author    = {Nasipuri, A. and Zhuang, J. and Das, S.R.},
  booktitle = {Wireless Communications and Networking Conference, 1999. WCNC. 1999 IEEE},
  date      = {1999},
  doi       = {10.1109/WCNC.1999.796968},
  issn      = {1525-3511},
  keywords  = {carrier sense multiple access;land mobile radio;packet radio networks;telecommunication channels;telecommunication network routing;ad hoc networks;bandwidth;carrier-sense multiple access protocol;dynamic routing protocols;mobile nodes;multichannel CSMA MAC protocol;multihop wireless networks;packet loss reduction;packet transmission;performance;random idle channel selection;simulations;soft channel reservation;throughput;Access protocols;Ad hoc networks;Broadcasting;Cellular networks;Media Access Protocol;Multiaccess communication;Routing protocols;Spread spectrum communication;Wireless application protocol;Wireless networks},
  pages     = {1402--1406 vol.3},
  title     = {A multichannel CSMA MAC protocol for multihop wireless networks},
}

@inproceedings{psdcc,
  author    = {Bononi, L. and Conti, M. and Donatiello, L.},
  booktitle = {Mobile Multimedia Communications, 1999. (MoMuC '99) 1999 IEEE International Workshop on},
  date      = {1999},
  doi       = {10.1109/MOMUC.1999.819479},
  keywords  = {distributed control;mobile computing;multi-access systems;power consumption;telecommunication congestion control;wireless LAN;IEEE 802.11 Distributed Coordination Function;IEEE Standard 802.11 DCF access scheme;MAC protocol;WLAN;adaptive power-save distributed contention control mechanism;distributed access scheme;distributed contention control mechanism;frame transmission;medium access control protocol;mobile computers;network interface;optimal power consumption level;power consumption;power saving;random-access ad-hoc wireless local area networks;shared transmission channel;wireless LAN;Access protocols;Computer networks;Distributed control;Energy consumption;Media Access Protocol;Mobile computing;Network interfaces;Wireless LAN;Wireless application protocol;Wireless networks},
  pages     = {114--123},
  title     = {A distributed contention control mechanism for power saving in random-access ad-hoc wireless local area networks},
}

@inproceedings{adapt,
  author    = {Chlamtac, I. and Farago, A. and Myers, A.D. and Syrotiuk, V.R. and Zaruba, G.},
  booktitle = {Global Telecommunications Conference, 1999. GLOBECOM '99},
  date      = {1999},
  doi       = {10.1109/GLOCOM.1999.831599},
  keywords  = {access protocols;land mobile radio;ADAPT;a dynamically adaptive protocol for transmission;ad hoc-networks;allocation based protocol;bandwidth;bounded delay guarantees;collision-free allocation based protocol;contention based protocol;dynamically self-adjusting media access control protocol;reuse;self-adjustment;Access protocols;Ad hoc networks;Bandwidth;Delay;Media Access Protocol;Mobile ad hoc networks;Mobile communication;Processor scheduling;Throughput;Time division multiple access},
  pages     = {11--15 vol.1a},
  title     = {ADAPT: a dynamically self-adjusting media access control protocol for ad hoc-networks},
  volume    = {1A},
}

@inproceedings{isma,
  author    = {WU, Gang and MUKUMOTO, Kaiji and FUKUDA, Akira},
  booktitle = {IEICE TRANSACTIONS on Communications Vol.E76-B No.11},
  date      = {1993-11-25},
  pages     = {1398--1407},
  title     = {An Integrated Voice and Data Transmission System with Idle Signal Multiple Access--Dynamic Analysis},
}

@article{cprma,
  author       = {Bianchi, G. and Borgonovo, F. and Fratta, L. and Musumeci, L. and Zorzi, M.},
  date         = {1997-05},
  doi          = {10.1109/25.580781},
  issn         = {0018-9545},
  journaltitle = {Vehicular Technology, IEEE Transactions on},
  keywords     = {access protocols;cellular radio;data communication;delays;land mobile radio;packet radio networks;packet reservation multiple access;radiofrequency interference;scheduling;voice communication;C-PRMA;bandwidth utilization;base station;cellular radio systems;centralized packet reservation multiple access;delay constraints;grade of service;interference noise;local wireless communications;microcellular systems;mobile stations;packet reservation multiple-access;packet retransmission policy;packet voice;packet-switched technology;performance;reservation ALOHA protocol;short propagation delay;simulation results;traffic rate;transmission scheduling;voice transmission;voice-data integration;Access protocols;Bandwidth;Base stations;Interference;Land mobile radio cellular systems;Propagation delay;Speech;Time division multiple access;Traffic control;Working environment noise},
  number       = {2},
  pages        = {422--436},
  title        = {C-PRMA: a centralized packet reservation multiple access for local wireless communications},
  volume       = {46},
}

@inproceedings{risma,
  author    = {Wu, Gang and Taira, K. and Harada, H. and Mizuno, M. and Mukumoto, K. and Fukuda, A.},
  booktitle = {Communications, 1996. ICC '96, Conference Record, Converging Technologies for Tomorrow's Applications. 1996 IEEE International Conference on},
  date      = {1996-06},
  doi       = {10.1109/ICC.1996.531996},
  keywords  = {access protocols;approximation theory;channel capacity;data communication;delays;multimedia communication;packet radio networks;voice communication;MAC protocols;R-ISMA protocol;data traffic;delay performance;integrated voice/data wireless information system;medium access control;packet generation rates;reserved idle signal multiple access;system performance;transient fluid approximation;voice traffic;voice/data integration;wireless multimedia communication;wireless multimedia communication networks;Access protocols;Communication networks;Information systems;Media Access Protocol;Multimedia communication;System performance;Telecommunication traffic;Transient analysis;Wireless application protocol;Wireless communication},
  pages     = {1263--1269 vol.3},
  title     = {An R-ISMA integrated voice/data wireless information system with different packet generation rates},
  volume    = {3},
}

@article{sisma,
  author       = {Wu, Gang and Mukumoto, K. and Fukuda, A.},
  date         = {1994-05},
  doi          = {10.1109/25.293653},
  issn         = {0018-9545},
  journaltitle = {Vehicular Technology, IEEE Transactions on},
  keywords     = {channel capacity;mobile radio systems;multi-access systems;protocols;radio networks;telecommunication traffic;S-ISMA/CD;centralized wireless communication networks;channel efficiency;delay performance;downstream traffic;downward channel;equilibrium point analysis;fluid approximation method;offered load;random multiple access;slotted idle signal multiple access;throughput;two-way networks;upstream traffic;Access protocols;Base stations;Broadcasting;Fluid dynamics;Instruction sets;Propagation delay;Road accidents;Telecommunication traffic;Throughput;Wireless communication},
  number       = {2},
  pages        = {345--352},
  title        = {Slotted idle signal multiple access scheme for two-way centralized wireless communication networks},
  volume       = {43},
}

@inproceedings{rap,
  author    = {Chen, Kwang-Cheng and Lee, C.-H.},
  booktitle = {Global Telecommunications Conference, 1993, including a Communications Theory Mini-Conference. Technical Program Conference Record, IEEE in Houston. GLOBECOM '93., IEEE},
  date      = {1993-11},
  doi       = {10.1109/GLOCOM.1993.318362},
  keywords  = {cellular radio;channel capacity;data communication systems;delays;local area networks;performance evaluation;personal communication networks;protocols;LAN;RAP;active mobile nodes;base stations;channel;decentralized control;handoff;infrastructured wireless network architectures;medium access control protocol;personal communication systems;power efficiency;randomly addressed polling;seemingless services;time-bounded services;wireless data networks;Access protocols;Base stations;Distributed control;Hardware;Infrared spectra;Media Access Protocol;Telecommunication traffic;Wireless LAN;Wireless application protocol;Wireless networks},
  pages     = {1713--1717 vol.3},
  title     = {RAP-a novel medium access control protocol for wireless data networks},
}

@inproceedings{grap,
  author    = {Chou, Hsiu-Fen and Lee, C.-H. and Chen, Kwang-Cheng},
  booktitle = {Personal, Indoor and Mobile Radio Communications, 1995. PIMRC'95. Wireless: Merging onto the Information Superhighway., Sixth IEEE International Symposium on},
  date      = {1995-09},
  doi       = {10.1109/PIMRC.1995.480942},
  keywords  = {access protocols;cellular radio;data communication;land mobile radio;multi-access systems;personal communication networks;voice communication;wireless LAN;GRAP;R-GRAP;group randomly addressed polling protocol;integrated service traffic;integrated voice/data traffic;multiple access protocol;performance;personal communications;reservation;time-bounded service traffic;voice wireless networks;wireless data networks;wireless integrated service networks;Access protocols;Base stations;Broadcasting;Fading;Intserv networks;Multiaccess communication;Telecommunication traffic;Wireless LAN;Wireless application protocol;Wireless networks},
  pages     = {618--622 vol.2},
  title     = {Group randomly addressed polling with reservation for wireless integrated service networks},
  volume    = {2},
}

@article{grapo,
  author       = {Li, Meng-Che and Chen, Kwang-Cheng},
  language     = {English},
  publisher    = {Kluwer Academic Publishers-Plenum Publishers},
  url          = {http://dx.doi.org/10.1007/BF01538149},
  date         = {1995},
  doi          = {10.1007/BF01538149},
  issn         = {1068-9605},
  journaltitle = {International Journal of Wireless Information Networks},
  number       = {4},
  pages        = {247--255},
  title        = {GRAPO—optimized group randomly addressed polling for wireless data network},
  volume       = {2},
}

@article{rama,
  author       = {Amitay, N.},
  date         = {1992-04},
  doi          = {10.1049/el:19920504},
  issn         = {0013-5194},
  journaltitle = {Electronics Letters},
  keywords     = {cellular radio;multi-access systems;personal communication networks;GSM parameters;RAMA;decentralised wireless PCS;deterministic algorithm;fast resource assignment;flexible access;handoff;heavy traffic demand;high capacity wireless personal communications systems;microcells;propagation delays;resource assignment;resource auction multiple access;throughput},
  number       = {8},
  pages        = {799--801},
  title        = {Resource auction multiple access (RAMA): efficient method for fast resource assignment in decentralised wireless PCS},
  volume       = {28},
}

@article{zhang,
  author       = {Zhang, Zhensheng and Acampora, AnthonyS.},
  language     = {English},
  publisher    = {Baltzer Science Publishers, Baarn/Kluwer Academic Publishers},
  url          = {http://dx.doi.org/10.1007/BF02136165},
  date         = {1993},
  doi          = {10.1007/BF02136165},
  issn         = {1018-4864},
  journaltitle = {Telecommunication Systems},
  number       = {1},
  pages        = {279--294},
  title        = {Performance of a modified polling strategy for broadband wireless lans in a harsh fading environment},
  volume       = {1},
}

@inproceedings{dtmp,
  author    = {Haines, R.J. and Aghvami, A.H.},
  booktitle = {Communications, 1993. ICC '93 Geneva. Technical Program, Conference Record, IEEE International Conference on},
  date      = {1993-05},
  doi       = {10.1109/ICC.1993.397418},
  keywords  = {access protocols;broadband networks;digital radio;digital signals;forward error correction;indoor radio;multipath channels;radiowave propagation;robust control;trellis coded modulation;wireless LAN;bursty computer file data;channel outage occurrence;data corruption;digital signal propagation;forward error correction;indoor environment;media access control protocol;multipath channel;trellis code modulation;wideband radio data communications;Bit rate;Computer errors;Convolutional codes;Error correction codes;Forward error correction;Indoor environments;Indoor radio communication;Media Access Protocol;Modulation coding;Multipath channels},
  pages     = {990--994 vol.2},
  title     = {Indoor radio environment considerations in selecting a media access control protocol for wideband radio data communications},
  volume    = {2},
}

@inproceedings{acampora,
  author    = {Acampora, A.S. and Krishnamurthy, S.V.},
  booktitle = {Universal Personal Communications Record, 1997. Conference Record., 1997 IEEE 6th International Conference on},
  date      = {1997-10},
  doi       = {10.1109/ICUPC.1997.627197},
  issn      = {1091-8442},
  keywords  = {access protocols;adaptive systems;adjacent channel interference;asynchronous transfer mode;cellular radio;cochannel interference;fading;internetworking;land mobile radio;multimedia communication;multipath channels;packet radio networks;spread spectrum communication;ATM wireline network;CPU resources;adaptive MAC layer protocol;adaptive array antenna;adjacent channel interference;antenna element combining;approximations;average message delay;bandwidth-upon-demand interface;base station;cochannel interference;computer simulations;database resources;direct sequence spread spectrum;fading environment;high speed radio channel sharing;link utilization efficiency;media access protocol;moving vehicles;multimedia service;multipath propagation;neighboring radio cells;performance;pilot tone simulation;polling signal;power splitting weights;protocol parameters;radio channel;wireless ATM networks;wireless packet access units;Access protocols;Adaptive arrays;Antennas and propagation;Base stations;Directive antennas;Media Access Protocol;Multimedia databases;Multimedia systems;Vehicles;Wireless application protocol},
  pages     = {410--415 vol.2},
  title     = {A new adaptive MAC layer protocol for wireless ATM networks in harsh fading and interference environments},
  volume    = {2},
}

@article{frma,
  author       = {Narasimhan, P. and Yates, R.D.},
  date         = {1996-05},
  doi          = {10.1109/49.490413},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {Markov processes;data communication;land mobile radio;nonlinear programming;packet reservation multiple access;probability;telecommunication traffic;voice communication;Markov chain;PRMA;QoS;bandwidth;data region;data subsystems;data traffic;exact analytical method;mobile terminal;nonlinear programming problem;numerical results;packet reservation multiple access;protocol;quality of service;receiver;voice capacity;voice contention region;voice information region;voice packet dropping probability;voice subsystems;voice-data integration;Access protocols;Bandwidth;Broadcasting;Decoding;Delay effects;Multiplexing;Performance analysis;Quality of service;Speech analysis;Time division multiple access},
  number       = {4},
  pages        = {623--631},
  title        = {A new protocol for the integration of voice and data over PRMA},
  volume       = {14},
}

@inproceedings{prmapp,
  author    = {DeVile, J.M.},
  booktitle = {Mobile and Personal Communications, 1993., Seventh IEE European Conference on},
  date      = {1993-12},
  keywords  = {mobile radio systems;time division multiple access;PRMA++;RACE ATDMA project;advanced time division multiple access;air-interface;future Universal Mobile Telecommunications System;reservation based multiple access},
  pages     = {210--215},
  title     = {A reservation based multiple access scheme for a future Universal Mobile Telecommunications System},
}

@article{ribtma,
  author       = {Wu, C. and Li, V.},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/55483.55518},
  date         = {1987-08},
  doi          = {10.1145/55483.55518},
  issn         = {0146-4833},
  journaltitle = {SIGCOMM Comput. Commun. Rev.},
  number       = {5},
  pages        = {336--342},
  title        = {Receiver-initiated Busy-tone Multiple Access in Packet Radio Networks},
  volume       = {17},
}

@article{frama,
  author       = {Pinheiro, A.L.A. and de Marca, J.R.B.},
  date         = {1996-12},
  doi          = {10.1049/el:19961588},
  issn         = {0013-5194},
  journaltitle = {Electronics Letters},
  keywords     = {access protocols;delays;multi-access systems;packet radio networks;probability;statistics;F-RAMA protocol;access delay;deterministic packet access protocol;fair resource assignment multiple access;packet dropping probability;resource auction multiple access;speech clipping statistics;voice transmission},
  number       = {25},
  pages        = {2310--2311},
  title        = {Fair deterministic packet access protocol: F-RAMA (fair resource assignment multiple access)},
  volume       = {32},
}

@article{rraisa,
  author       = {Bolla, Raffaele and Davoli, Franco and Nobile, Carlo},
  language     = {English},
  publisher    = {Kluwer Academic Publishers},
  url          = {http://dx.doi.org/10.1023/A%3A1013203910607},
  date         = {1997},
  doi          = {10.1023/A:1013203910607},
  issn         = {1383-469X},
  journaltitle = {Mobile Networks and Applications},
  number       = {1},
  pages        = {45--53},
  title        = {The RRA‐ISA multiple access protocol with and without simple priority schemes for real‐time and data traffic in wireless cellular systems},
  volume       = {2},
}

@article{dqruma,
  author       = {Karol, MarkJ. and Liu, Zhao and Eng, KaiY.},
  language     = {English},
  publisher    = {Kluwer Academic Publishers},
  url          = {http://dx.doi.org/10.1007/BF01200846},
  date         = {1995},
  doi          = {10.1007/BF01200846},
  issn         = {1022-0038},
  journaltitle = {Wireless Networks},
  number       = {3},
  pages        = {267--279},
  title        = {An efficient demand-assignment multiple access protocol for wireless packet (ATM) networks},
  volume       = {1},
}

@article{mascara1998,
  author       = {Mikkonen, J. and Aldis, J. and Awater, G. and Lunn, A. and Hutchison, David},
  date         = {1998-08},
  doi          = {10.1109/49.709455},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {asynchronous transfer mode;data communication;multimedia communication;protocols;specification languages;wireless LAN;ATM LAN;European Union ACTS initiative;Magic WAND;SDL simulation;call setup;design;functional model;functional overview;functional specification;functionality;handover;indoor environments;initial registration;key operations;physical data transmission;protocols;shared multimedia application;user mobility;walking speed;wireless ATM network demonstrator;wireless access network;Access protocols;Asynchronous transfer mode;Communications technology;Data communication;Frequency;Indoor environments;Mobile computing;Switches;Wireless application protocol;Wireless networks},
  number       = {6},
  pages        = {953--972},
  title        = {The Magic WAND-functional overview},
  volume       = {16},
}

@inproceedings{cata,
  author    = {Tang, Zhenyu and Garcia-Luna-Aceves, J.J.},
  booktitle = {Wireless Communications and Networking Conference, 1999. WCNC. 1999 IEEE},
  date      = {1999},
  doi       = {10.1109/WCNC.1999.796954},
  issn      = {1525-3511},
  keywords  = {access protocols;network topology;packet radio networks;scheduling;telecommunication channels;telecommunication congestion control;CATA;ad-hoc networks;bandwidth;broadcasting;channel access protocol;collision-avoidance time allocation;distributed reservation;dynamic service time;fully-connected network topology;handshake mechanism;hidden terminals;multi-hop packet radio networks;multicasting;protocol;throughput;topology-dependent transmission scheduling;unicasting;wireless networks;Access protocols;Ad hoc networks;Dynamic scheduling;Intelligent networks;Media Access Protocol;Multiaccess communication;Multicast protocols;Processor scheduling;Spread spectrum communication;Wireless networks},
  pages     = {1333--1337 vol.3},
  title     = {A protocol for topology-dependent transmission scheduling in wireless networks},
}

@inproceedings{jin,
  author    = {Jin, Kyu-Tae and Cho, Dong-Ho},
  booktitle = {Vehicular Technology Conference, 2000. IEEE-VTS Fall VTC 2000. 52nd},
  date      = {2000},
  doi       = {10.1109/VETECF.2000.886656},
  issn      = {1090-3038},
  keywords  = {access protocols;code division multiple access;delays;land mobile radio;multiuser channels;packet radio networks;time division multiple access;CDMA/TDMA;MAC algorithm;MAC protocols;ad-hoc wireless networks;channel utilization;delayed slots;energy efficiency;energy-limited ad-hoc networks;medium access protocols;packet radio network;reservation;scheduling;terminal battery power;Ad hoc networks;Batteries;Energy consumption;Energy efficiency;Media Access Protocol;Multiaccess communication;Routing protocols;Scheduling algorithm;Wireless application protocol;Wireless networks},
  pages     = {219--222 vol.1},
  title     = {A MAC algorithm for energy-limited ad-hoc networks},
  volume    = {1},
}

@article{trama,
  author       = {Rajendran, Venkatesh and Obraczka, Katia and Garcia-Luna-Aceves, J. J.},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1007/s11276-006-6151-z},
  date         = {2006-02},
  doi          = {10.1007/s11276-006-6151-z},
  issn         = {1022-0038},
  journaltitle = {Wirel. Netw.},
  keywords     = {ad hoc networks,energy-efficient scheduling,sensor networks,traffic-adaptive medium access},
  number       = {1},
  pages        = {63--78},
  title        = {Energy-efficient, Collision-free Medium Access Control for Wireless Sensor Networks},
  volume       = {12},
}

@inproceedings{nama,
  author    = {Bao, Lichun and Garcia-Luna-Aceves, J. J.},
  location  = {Rome, Italy},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/381677.381698},
  booktitle = {Proceedings of the 7th Annual International Conference on Mobile Computing and Networking},
  date      = {2001},
  doi       = {10.1145/381677.381698},
  isbn      = {1-58113-422-3},
  pages     = {210--221},
  series    = {MobiCom '01},
  title     = {A New Approach to Channel Access Scheduling for Ad Hoc Networks},
}

@inproceedings{march,
  author    = {Toh, C.K. and Vassiliou, V. and Guichal, G. and Shih, C.-H.},
  booktitle = {MILCOM 2000. 21st Century Military Communications Conference Proceedings},
  date      = {2000},
  doi       = {10.1109/MILCOM.2000.905007},
  keywords  = {access protocols;broadcast antennas;land mobile radio;multi-access systems;packet radio networks;MAC protocols;MARCH protocol;RTS-CTS handshake;broadcast characteristics;channel throughput;control messages reduction;control packets transmission;data packet forwarding;data packet transmission;medium access control protocol;mobile hosts;multihop wireless ad hoc networks;multiple access with reduced handshake;omnidirectional antenna;packet collision probability;performance evaluation;simulation results;Access protocols;Ad hoc networks;Media Access Protocol;Mobile ad hoc networks;Mobile computing;Multiaccess communication;Road accidents;Spread spectrum communication;Throughput;Wireless application protocol},
  pages     = {512--516 vol.1},
  title     = {MARCH: a medium access control protocol for multihop wireless ad hoc networks},
  volume    = {1},
}

@inproceedings{richdp,
  author    = {Tzamaloukas, A. and Garcia-Luna-Aceves, J.J.},
  booktitle = {Computer Communications and Networks, 2000. Proceedings. Ninth International Conference on},
  date      = {2000},
  doi       = {10.1109/ICCCN.2000.885483},
  issn      = {1095-2055},
  keywords  = {access protocols;channel allocation;frequency hop communication;packet radio networks;telecommunication congestion control;MAC protocols;RICH-DP;ad-hoc networks;carrier sensing;channel-hopping protocol;collision-avoidance handshakes;commercial off-the-shelf frequency hopping radios;data packets;delay characteristics;dual polling;hidden source interference;hidden terminals;media access control protocols;receiver-initiated channel-hopping;throughput characteristics;unique node codes;unlicensed frequency bands;wireless networks;Access protocols;Ad hoc networks;Analytical models;Delay;Frequency;Interference;Media Access Protocol;Throughput;Wireless application protocol;Wireless networks},
  pages     = {142--147},
  title     = {A channel-hopping protocol for ad-hoc networks},
}

@article{dcapc,
  abstract     = {In a mobile ad hoc network (MANET), one essential issue is Medium Access Control (MAC), which addresses how to utilize the radio spectrum efficiently and to resolve potential contention and collision among mobile hosts on using the medium. Existing works have been dedicated to using multiple channels and power control to improve the performance of MANET. In this paper, we investigate the possibility of bringing the concepts of power control and multi-channel medium access together in the MAC design problem in a MANET. Existing protocols only address one of these issues independently. The proposed protocol is characterized by the following features: (i) it follows an ‘on-demand’ style to assign channels to mobile hosts, (ii) the number of channels required is independent of the network topology and degree, (iii) it flexibly adapts to host mobility, (iv) no form of clock synchronization is required and (v) power control is used to exploit frequency reuse. Power control may also extend battery life and reduce signal interference, both of which are important in wireless communication. Through simulations, we demonstrate the advantage of our new protocol.},
  author       = {Wu, Shih-Lin and Tseng, Yu-Chee and Lin, Chih-Yu and Sheu, Jang-Ping},
  url          = {http://comjnl.oxfordjournals.org/content/45/1/101.abstract},
  date         = {2002},
  doi          = {10.1093/comjnl/45.1.101},
  eprint       = {http://comjnl.oxfordjournals.org/content/45/1/101.full.pdf+html},
  journaltitle = {The Computer Journal},
  number       = {1},
  pages        = {101--110},
  title        = {A Multi-channel MAC Protocol with Power Control for Multi-hop Mobile Ad Hoc Networks},
  volume       = {45},
}

@inproceedings{srmapa,
  author    = {Ahn, Chang Wook and Kang, Chung Gu and Cho, You Ze},
  booktitle = {Vehicular Technology Conference, 2000. IEEE-VTS Fall VTC 2000. 52nd},
  date      = {2000},
  doi       = {10.1109/VETECF.2000.887137},
  issn      = {1090-3038},
  keywords  = {access protocols;distributed control;land mobile radio;multiplexing;packet radio networks;quality of service;telecommunication control;MAC protocol;QoS-guaranteed integrated services;RTS/CTS-like collision-avoidance handshake;SRMA/PA protocol;back-off mechanism;channel utilization;delay-constrained services;distributed access priority control;distributed nodes;distributed scheduling;dynamic access priority control;mobile ad-hoc networks;multi-hop wireless packet networks;multiplexing gain;nonreal-time applications;priority assignment;real-time applications;simulation studies;soft reservation multiple access;system complexity;time slots reservation;Access protocols;Ad hoc networks;Centralized control;Collision avoidance;Dynamic scheduling;Electronic mail;Intserv networks;Media Access Protocol;Quality of service;Radio control},
  pages     = {942--947 vol.2},
  title     = {Soft reservation multiple access with priority assignment (SRMA/PA): a novel MAC protocol for QoS-guaranteed integrated services in mobile ad-hoc networks},
  volume    = {2},
}

@inproceedings{gpc,
  author    = {Monks, J.P. and Ebert, J.-P. and Wolisz, A. and Hwu, W.-M.W.},
  booktitle = {Local Computer Networks, 2001. Proceedings. LCN 2001. 26th Annual IEEE Conference on},
  date      = {2001},
  doi       = {10.1109/LCN.2001.990835},
  issn      = {0742-1303},
  keywords  = {access protocols;channel capacity;land mobile radio;network topology;packet radio networks;power control;telecommunication control;wireless LAN;ad hoc network topologies;distributed media access control;energy consumption;energy saving;multi-hop wireless networks;network capacity;performance measure;transmission power control;wireless LAN;wireless ad-hoc MAC protocols;wireless packet networks;Access protocols;Ad hoc networks;Energy consumption;Land mobile radio cellular systems;Media Access Protocol;Network topology;Power control;Spread spectrum communication;Wireless application protocol;Wireless networks},
  pages     = {550--559},
  title     = {A study of the energy saving and capacity improvement potential of power control in multi-hop wireless networks},
}

@article{vbs,
  author       = {Hassanein, Hossam and Safwat, Ahmed},
  publisher    = {John Wiley & Sons, Ltd.},
  url          = {http://dx.doi.org/10.1002/dac.506},
  date         = {2001},
  doi          = {10.1002/dac.506},
  issn         = {1099-1131},
  journaltitle = {International Journal of Communication Systems},
  keywords     = {wireless mobile ad hoc communications,wireless mobile infrastructure,routing,medium access control,quality of service,performance evaluation},
  number       = {8},
  pages        = {763--782},
  title        = {Virtual base stations for wireless mobile ad hoc communications: an infrastructure for the infrastructure-less},
  volume       = {14},
}

@inproceedings{dpcalp,
  author    = {Kim, Jung-Won and Bambos, N.},
  booktitle = {Vehicular Technology Conference, 2002. Proceedings. VTC 2002-Fall. 2002 IEEE 56th},
  date      = {2002},
  doi       = {10.1109/VETECF.2002.1040647},
  issn      = {1090-3038},
  keywords  = {access protocols;ad hoc networks;data communication;delays;mobile radio;power control;telecommunication channels;telecommunication control;CSMA;IEEE 802.11b;MAC protocol;SIR;adaptive probing;channel probing;mobile terminal;multirate wireless ad hoc networks;pipelining;power control algorithm;power-efficient MAC scheme;transmission delay;Access control;Ad hoc networks;Adaptive control;Base stations;Intelligent networks;Mobile ad hoc networks;Power control;Programmable control;Protocols;Throughput},
  pages     = {2380--2384 vol.4},
  title     = {Power-efficient MAC scheme using channel probing in multirate wireless ad hoc networks},
  volume    = {4},
}

@inproceedings{lal,
  author    = {Lal, D. and Toshniwal, R. and Radhakrishnan, R. and Agrawal, D.P. and Caffery, J.},
  booktitle = {Computer Communications and Networks, 2002. Proceedings. Eleventh International Conference on},
  date      = {2002-10},
  doi       = {10.1109/ICCCN.2002.1043136},
  issn      = {1095-2055},
  keywords  = {IEEE standards;ad hoc networks;adaptive antenna arrays;directive antennas;mobile radio;space division multiple access;telecommunication traffic;transmitting antennas;wireless LAN;IEEE 802.11;MAC layer protocol;WLAN;directional antennas;directional reception;performance;simulation;smart antenna systems;space division multiple access;spatially separated transmitter nodes;throughput improvements;wireless ad hoc networks;Access protocols;Directional antennas;Directive antennas;Media Access Protocol;Mobile ad hoc networks;Receiving antennas;Transmitters;Transmitting antennas;Wireless LAN;Wireless application protocol},
  pages     = {614--619},
  title     = {A novel MAC layer protocol for space division multiple access in wireless ad hoc networks},
}

@article{gridb,
  author       = {Tseng, Yu-Chee and Chao, Chih-Min and Wu, Shih-Lin and Sheu, Jang-Ping},
  url          = {http://www.sciencedirect.com/science/article/pii/S0140366401003978},
  date         = {2002},
  doi          = {10.1016/S0140-3664(01)00397-8},
  issn         = {0140-3664},
  journaltitle = {Computer Communications},
  keywords     = {Wireless communication},
  number       = {7},
  pages        = {676--688},
  title        = {Dynamic channel allocation with location awareness for multi-hop mobile ad hoc networks},
  volume       = {25},
}

@inproceedings{mcmac2002,
  author    = {Jin, Kyu-Tae and Cho, Dong-Ho},
  booktitle = {Vehicular Technology Conference, 2002. Proceedings. VTC 2002-Fall. 2002 IEEE 56th},
  date      = {2002},
  doi       = {10.1109/VETECF.2002.1040774},
  issn      = {1090-3038},
  keywords  = {access protocols;ad hoc networks;multimedia communication;packet radio networks;average access delay;multi-code MAC;multi-hop wireless ad hoc networks;multimedia packets;multimedia services;temporary network;throughput;wireless ad-hoc network;wireless mobile terminals;Ad hoc networks;Delay;Home automation;Media Access Protocol;Mobile ad hoc networks;Multimedia systems;Receivers;Spread spectrum communication;Throughput;Wireless networks},
  pages     = {1100--1104 vol.2},
  title     = {Multi-code MAC for multi-hop wireless ad hoc networks},
  volume    = {2},
}

@article{wca,
  author       = {Chatterjee, Mainak and Das, SajalK. and Turgut, Damla},
  language     = {English},
  publisher    = {Kluwer Academic Publishers},
  url          = {http://dx.doi.org/10.1023/A%3A1013941929408},
  date         = {2002},
  doi          = {10.1023/A:1013941929408},
  issn         = {1386-7857},
  journaltitle = {Cluster Computing},
  keywords     = {ad hoc networks; clusters; dominant set; load balancing},
  number       = {2},
  pages        = {193--204},
  title        = {WCA: A Weighted Clustering Algorithm for Mobile Ad Hoc Networks},
  volume       = {5},
}

@article{dbtma,
  author       = {Haas, Z.J. and Deng, Jing},
  date         = {2002-06},
  doi          = {10.1109/TCOMM.2002.1010617},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {access protocols;land mobile radio;network topology;packet radio networks;DBTMA;DBTMA protocol;FAMA-NCS;MAC layer;MAC protocol;RTS packet;RTS/CTS dialogue;ad hoc networks;clear-to-send dialogue;dual busy tone multiple access;exposed terminal problems;hidden terminal problems;multiple access control;narrow-bandwidth tones;network capacity;network topologies;out-of-band busy tones;packet sensing MAC schemes;performance evaluation;ready-to-send dialogue;simulation results;throughput;Access control;Access protocols;Ad hoc networks;Analytical models;Media Access Protocol;Performance analysis;Performance gain;Protection;Throughput;Transmitters},
  number       = {6},
  pages        = {975--985},
  title        = {Dual busy tone multiple access (DBTMA)-a multiple access control scheme for ad hoc networks},
  volume       = {50},
}

@inproceedings{mmac2002,
  author    = {Choudhury, Romit Roy and Yang, Xue and Ramanathan, Ram and Vaidya, Nitin H.},
  location  = {Atlanta, Georgia, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/570645.570653},
  booktitle = {Proceedings of the 8th Annual International Conference on Mobile Computing and Networking},
  date      = {2002},
  doi       = {10.1145/570645.570653},
  isbn      = {1-58113-486-X},
  keywords  = {ad hoc networks,carrier sensing,directional antennas,medium access control},
  pages     = {59--70},
  series    = {MobiCom '02},
  title     = {Using Directional Antennas for Medium Access Control in Ad Hoc Networks},
}

@article{dprma,
  author       = {Jiang, Shengming and Rao, Jianqiang and He, Dajiang and Ling, Xinhua and Ko, Chi Chung},
  date         = {2002-03},
  doi          = {10.1109/25.994807},
  issn         = {0018-9545},
  journaltitle = {Vehicular Technology, IEEE Transactions on},
  keywords     = {Global Positioning System;access protocols;mobile radio;packet radio networks;packet reservation multiple access;synchronisation;voice communication;D-PRMA;IEEE 802.11;MAC scheme;MANETs;PRMA;distributed PRMA;exposed terminal problems;hidden terminal problems;mobile ad hoc environments;mobile ad hoc networks;packet reservation multiple access;simple distributed PRMA;slot reservation mechanism;slotted-channel-based medium access control schemes;synchronization;talkspurt;terminals;voice application support;voice traffic;Application software;Computer simulation;Costs;Global Positioning System;Media Access Protocol;Mobile ad hoc networks;Performance analysis;Telecommunication traffic;Time division multiple access;Traffic control},
  number       = {2},
  pages        = {293--305},
  title        = {A simple distributed PRMA for MANETs},
  volume       = {51},
}

@inproceedings{dprma2,
  author    = {Alasti, Mehdi and Farvardin, Nariman},
  location  = {Seattle, Washington, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/313237.313247},
  booktitle = {Proceedings of the 2Nd ACM International Workshop on Modeling, Analysis and Simulation of Wireless and Mobile Systems},
  date      = {1999},
  doi       = {10.1145/313237.313247},
  isbn      = {1-58113-173-9},
  pages     = {41--49},
  series    = {MSWiM '99},
  title     = {D-PRMA: A Dynamic Packet Reservation Multiple Access Protocol for Wireless Communications},
}

@inproceedings{ymac,
  author    = {Kim, Youngmin and Shin, Hyojeong and Cha, Hojung},
  location  = {Washington, DC, USA},
  publisher = {IEEE Computer Society},
  url       = {http://dx.doi.org/10.1109/IPSN.2008.27},
  booktitle = {Proceedings of the 7th International Conference on Information Processing in Sensor Networks},
  date      = {2008},
  doi       = {10.1109/IPSN.2008.27},
  isbn      = {978-0-7695-3157-1},
  keywords  = {Wireless Sensor Networks,Medium Access Control},
  pages     = {53--63},
  series    = {IPSN '08},
  title     = {Y-MAC: An Energy-Efficient Multi-channel MAC Protocol for Dense Wireless Sensor Networks},
}

@article{macapr,
  author       = {Lin, Chunhung Richard and Gerla, Mario},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1023/A:1019182523928},
  date         = {1999-03},
  doi          = {10.1023/A:1019182523928},
  issn         = {1022-0038},
  journaltitle = {Wirel. Netw.},
  number       = {2},
  pages        = {125--135},
  title        = {Real-time Support in Multihop Wireless Networks},
  volume       = {5},
}

@article{iisma,
  author       = {Wu, Gang and Mukumoto, Kaiji and Fukuda, Akira},
  url          = {http://search.ieice.org/bin/summary.php?id=e76-b_9_1186&category=B&lang=E&year=1993&abst=},
  date         = {1993-09-25},
  journaltitle = {IEICE TRANSACTIONS on Communications},
  pages        = {1186--1192},
  title        = {An Integrated Voice and Data Transmission System with Idle Signal Multiple Access--Static Analysis--},
  volume       = {E76-B},
}

@article{leach,
  author       = {Heinzelman, W.B. and Chandrakasan, A.P. and Balakrishnan, H.},
  date         = {2002-10},
  doi          = {10.1109/TWC.2002.804190},
  issn         = {1536-1276},
  journaltitle = {Wireless Communications, IEEE Transactions on},
  keywords     = {access protocols;adaptive systems;distributed processing;electric sensing devices;radio networks;telecommunication network routing;LEACH;application-perceived quality;application-specific data aggregation;application-specific protocol architecture;cluster head positions rotation;distributed cluster formation;distributed signal processing;energy-efficient cluster-based routing;energy-efficient media access;general-purpose multihopping;latency;low-energy adaptive clustering hierarchy;media access control protocols;microsensor networks;microsensor nodes;network performance;protocol architecture;remote environment monitoring;routing protocols;self-organization;system lifetime;wireless channel;wireless communication protocols;wireless microsensor networks;Access protocols;Delay;Energy efficiency;Intelligent networks;Microsensors;Remote monitoring;Robustness;Signal processing algorithms;Wireless application protocol;Wireless communication},
  number       = {4},
  pages        = {660--670},
  title        = {An application-specific protocol architecture for wireless microsensor networks},
  volume       = {1},
}

@article{smac,
  author       = {Ye, Wei and Heidemann, J. and Estrin, D.},
  date         = {2004-06},
  doi          = {10.1109/TNET.2004.828953},
  issn         = {1063-6692},
  journaltitle = {Networking, IEEE/ACM Transactions on},
  keywords     = {access protocols;ad hoc networks;message passing;telecommunication signalling;wireless LAN;wireless sensor networks;IEEE 802.11;MAC protocol;UC Berkeley Mote;ad hoc networks;battery-operated computing device;battery-operated sensing device;coordinated adaptive sleeping;energy conservation;environmental monitoring;in-channel signaling;in-network data processing;medium access control protocol;message passing;multihop network;self-configuration;virtual clusters;wireless sensor networks;Access protocols;Adaptive control;Communication system traffic control;Computer networks;Delay;Media Access Protocol;Programmable control;Sensor phenomena and characterization;Wireless application protocol;Wireless sensor networks;Energy efficiency;MAC;medium access control;sensor network;wireless network},
  number       = {3},
  pages        = {493--506},
  title        = {Medium access control with coordinated adaptive sleeping for wireless sensor networks},
  volume       = {12},
}

@article{lmac,
  author    = {Van Hoesel, Lodewijk FW and Havinga, Paul JM},
  publisher = {Society of Instrument and Control Engineers (SICE)},
  date      = {2004},
  title     = {A lightweight medium access protocol (LMAC) for wireless sensor networks: Reducing preamble transmissions and transceiver state switches},
}

@inproceedings{tmac,
  author    = {van Dam, Tijs and Langendoen, Koen},
  location  = {Los Angeles, California, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/958491.958512},
  booktitle = {Proceedings of the 1st International Conference on Embedded Networked Sensor Systems},
  date      = {2003},
  doi       = {10.1145/958491.958512},
  isbn      = {1-58113-707-9},
  keywords  = {MAC protocol,ad-hoc,energy-efficiency,sensor networks},
  pages     = {171--180},
  series    = {SenSys '03},
  title     = {An Adaptive Energy-efficient MAC Protocol for Wireless Sensor Networks},
}

@article{dps,
  author       = {Kanodia, Vikram and Li, Chengzhi and Sabharwal, Ashutosh and Sadeghi, Bahareh and Knightly, Edward},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1023/A:1016538128311},
  date         = {2002-09},
  doi          = {10.1023/A:1016538128311},
  issn         = {1022-0038},
  journaltitle = {Wirel. Netw.},
  keywords     = {IEEE 802.11,ad hoc networks,distributed scheduling,medium access},
  number       = {5},
  pages        = {455--466},
  title        = {Distributed Priority Scheduling and Medium Access in Ad Hoc Networks},
  volume       = {8},
}

@inproceedings{dwop,
  author    = {Kanodia, V. and Sabharwal, A. and Sadeghi, B. and Knightly, E.},
  location  = {Lausanne, Switzerland},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/513800.513808},
  booktitle = {Proceedings of the 3rd ACM International Symposium on Mobile Ad Hoc Networking \&Amp; Computing},
  date      = {2002},
  doi       = {10.1145/513800.513808},
  isbn      = {1-58113-501-7},
  pages     = {58--70},
  series    = {MobiHoc '02},
  title     = {Ordered Packet Scheduling in Wireless Ad Hoc Networks: Mechanisms and Performance Analysis},
}

@inproceedings{desynctdma,
  author    = {Degesys, Julius and Rose, Ian and Patel, Ankit and Nagpal, Radhika},
  location  = {Cambridge, Massachusetts, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1236360.1236363},
  booktitle = {Proceedings of the 6th International Conference on Information Processing in Sensor Networks},
  date      = {2007},
  doi       = {10.1145/1236360.1236363},
  isbn      = {978-1-59593-638-7},
  keywords  = {desynchronization,medium access control,pulse-coupled oscillators,resource scheduling,self-organizing,sensor networks,time division multiple access},
  pages     = {11--20},
  series    = {IPSN '07},
  title     = {DESYNC: Self-organizing Desynchronization and TDMA on Wireless Sensor Networks},
}

@inproceedings{mlmac2007,
  author    = {Mank, S. and Karnapke, R. and Nolte, J.},
  booktitle = {Sensor Technologies and Applications, 2007. SensorComm 2007. International Conference on},
  date      = {2007-10},
  doi       = {10.1109/SENSORCOMM.2007.4394899},
  keywords  = {carrier sense multiple access;time division multiple access;wireless sensor networks;CSMA/CA;MAC protocol;adaptive TDMA;mobile sensor nodes;mobile wireless sensor networks;radio transceivers;Bandwidth;Communication channels;Media Access Protocol;Mobile communication;Mobile robots;Multiaccess communication;Radio transceivers;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {62--69},
  title     = {An Adaptive TDMA based MAC Protocol for Mobile Wireless Sensor Networks},
}

@inproceedings{pmac,
  author    = {Zheng, Tao and Radhakrishnan, S. and Sarangan, V.},
  booktitle = {Parallel and Distributed Processing Symposium, 2005. Proceedings. 19th IEEE International},
  date      = {2005-04},
  doi       = {10.1109/IPDPS.2005.344},
  keywords  = {access protocols;ad hoc networks;energy conservation;power consumption;resource allocation;scheduling;telecommunication traffic;wireless sensor networks;PMAC;SMAC;adaptive energy-efficient MAC protocol;energy consumption;pattern-MAC protocol;sensor nodes;sleep-wakeup schedules;wireless sensor networks;Access protocols;Ad hoc networks;Computer science;Delay;Energy efficiency;Media Access Protocol;Telecommunication traffic;Throughput;Wireless application protocol;Wireless sensor networks},
  title     = {PMAC: an adaptive energy-efficient MAC protocol for wireless sensor networks},
}

@inproceedings{rmac2007b,
  author    = {Du, S. and Saha, A.K. and Johnson, D.B.},
  booktitle = {INFOCOM 2007. 26th IEEE International Conference on Computer Communications. IEEE},
  date      = {2007-05},
  doi       = {10.1109/INFCOM.2007.174},
  issn      = {0743-166X},
  keywords  = {access protocols;telecommunication network routing;wireless sensor networks;cross-layer routing information;data packet delivery;end-to-end delivery latency;routing-enhanced duty-cycle MAC protocol;wireless medium contention;wireless sensor networks;Communication system traffic control;Delay;Energy efficiency;Media Access Protocol;Relays;Routing protocols;Sleep;Traffic control;Wireless application protocol;Wireless sensor networks},
  pages     = {1478--1486},
  title     = {RMAC: A Routing-Enhanced Duty-Cycle MAC Protocol for Wireless Sensor Networks},
}

@article{dmac2007,
  author       = {Lu, Gang and Krishnamachari, Bhaskar and Raghavendra, Cauligi S.},
  publisher    = {John Wiley & Sons, Ltd.},
  url          = {http://dx.doi.org/10.1002/wcm.503},
  date         = {2007},
  doi          = {10.1002/wcm.503},
  issn         = {1530-8677},
  journaltitle = {Wireless Communications and Mobile Computing},
  keywords     = {sensor networks,medium access,data gathering,DMAC},
  number       = {7},
  pages        = {863--875},
  title        = {An adaptive energy-efficient and low-latency MAC for tree-based data gathering in sensor networks},
  volume       = {7},
}

@inproceedings{wisemac,
  author    = {El-Hoiydi, A. and Decotignie, J.-D.},
  booktitle = {Computers and Communications, 2004. Proceedings. ISCC 2004. Ninth International Symposium on},
  date      = {2004-06},
  doi       = {10.1109/ISCC.2004.1358412},
  keywords  = {access protocols;wireless sensor networks;energy efficiency;medium access control protocol;power consumption;synchronized preamble sampling;ultra low power MAC protocol;wireless sensor network downlink infrastructure;wiseMAC;Access protocols;Communication system traffic control;Delay;Downlink;Energy consumption;Energy efficiency;Media Access Protocol;Sampling methods;Wireless application protocol;Wireless sensor networks},
  pages     = {244--251 Vol.1},
  title     = {WiseMAC: an ultra low power MAC protocol for the downlink of infrastructure wireless sensor networks},
  volume    = {1},
}

@inproceedings{rimac,
  author    = {Sun, Yanjun and Gurewitz, Omer and Johnson, David B.},
  location  = {Raleigh, NC, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1460412.1460414},
  booktitle = {Proceedings of the 6th ACM Conference on Embedded Network Sensor Systems},
  date      = {2008},
  doi       = {10.1145/1460412.1460414},
  isbn      = {978-1-59593-990-6},
  keywords  = {asynchronous duty cycling,energy,medium access control,ns-2,sensor networks,tinyos},
  pages     = {1--14},
  series    = {SenSys '08},
  title     = {RI-MAC: A Receiver-initiated Asynchronous Duty Cycle MAC Protocol for Dynamic Traffic Loads in Wireless Sensor Networks},
}

@article{zmac,
  author       = {Rhee, Injong and Warrier, Ajit and Aia, Mahesh and Min, Jeongki and Sichitiu, Mihail L.},
  location     = {Piscataway, NJ, USA},
  publisher    = {IEEE Press},
  url          = {http://dx.doi.org/10.1109/TNET.2007.900704},
  date         = {2008-06},
  doi          = {10.1109/TNET.2007.900704},
  issn         = {1063-6692},
  journaltitle = {IEEE/ACM Trans. Netw.},
  keywords     = {CSMA,MAC,TDMA,wireless sensor networks},
  number       = {3},
  pages        = {511--524},
  title        = {Z-MAC: A Hybrid MAC for Wireless Sensor Networks},
  volume       = {16},
}

@inproceedings{mhmac,
  author    = {Raja, A. and Su, Xiao},
  booktitle = {Consumer Communications and Networking Conference, 2008. CCNC 2008. 5th IEEE},
  date      = {2008-01},
  doi       = {10.1109/ccnc08.2007.159},
  keywords  = {access protocols;mobile radio;packet radio networks;wireless sensor networks;MAC protocol designs;contention-based slots;frame time;hybrid MAC protocol;mobile nodes;mobile sensor networks;mobile slot;mobility adaptive hybrid protocol;mobility estimation algorithm;mobility level;packet delivery ratio;received signal strength;schedule-based slots;static nodes;static sensor networks;static slot;wireless sensor networks;Access protocols;Algorithm design and analysis;Computer networks;Delay;Energy efficiency;Media Access Protocol;Scheduling algorithm;Sleep;Wireless application protocol;Wireless sensor networks},
  pages     = {692--696},
  title     = {A Mobility Adaptive Hybrid Protocol for Wireless Sensor Networks},
}

@incollection{ginmac,
  author    = {Suriyachai, Petcharat and Brown, James and Roedig, Utz},
  editor    = {Rajaraman, Rajmohan and Moscibroda, Thomas and Dunkels, Adam and Scaglione, Anna},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-642-13651-1_16},
  booktitle = {Distributed Computing in Sensor Systems},
  date      = {2010},
  doi       = {10.1007/978-3-642-13651-1_16},
  isbn      = {978-3-642-13650-4},
  pages     = {216--229},
  series    = {Lecture Notes in Computer Science},
  title     = {Time-Critical Data Delivery in Wireless Sensor Networks},
  volume    = {6131},
}

@article{tsmp,
  author       = {Pister, K and Doherty, Lance},
  date         = {2008},
  journaltitle = {IASTED Distributed Sensor Networks},
  pages        = {391--398},
  title        = {TSMP: Time synchronized mesh protocol},
}

@article{aimrp,
  author       = {Kulkarni, S. and Iyer, A. and Rosenberg, C.},
  date         = {2006-08},
  doi          = {10.1109/TNET.2006.880163},
  issn         = {1063-6692},
  journaltitle = {Networking, IEEE/ACM Transactions on},
  keywords     = {access protocols;routing protocols;wireless sensor networks;MAC control packets;S-MAC;address-light integrated MAC protocol;anycast query;concentric tiers;event-detection applications;next-hop node;power-saving algorithm;routing protocol;sensor-to-sink latency constraints;total average power consumption;unique per-node addressing;wireless sensor networks;Delay;Event detection;Intelligent networks;Media Access Protocol;Monitoring;Routing protocols;Sensor phenomena and characterization;Telecommunication traffic;Wireless application protocol;Wireless sensor networks;Addressing;MAC;anycast routing;cross-layer integration;power-saving mode;rare event detection;sensor networks},
  number       = {4},
  pages        = {793--806},
  title        = {An address-light, integrated MAC and routing protocol for wireless sensor networks},
  volume       = {14},
}

@inproceedings{xmac,
  author    = {Buettner, Michael and Yee, Gary V. and Anderson, Eric and Han, Richard},
  location  = {Boulder, Colorado, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1182807.1182838},
  booktitle = {Proceedings of the 4th International Conference on Embedded Networked Sensor Systems},
  date      = {2006},
  doi       = {10.1145/1182807.1182838},
  isbn      = {1-59593-343-3},
  keywords  = {energy efficient operation,media access protocols},
  pages     = {307--320},
  series    = {SenSys '06},
  title     = {X-MAC: A Short Preamble MAC Protocol for Duty-cycled Wireless Sensor Networks},
}

@article{priomac,
  author       = {Shen, Wei and Zhang, Tingting and Barac, F. and Gidlund, M.},
  date         = {2014-02},
  doi          = {10.1109/TII.2013.2280081},
  issn         = {1551-3203},
  journaltitle = {Industrial Informatics, IEEE Transactions on},
  keywords     = {access protocols;actuators;delays;telecommunication industry;telecommunication network reliability;telecommunication standards;telecommunication traffic;wireless sensor networks;IWSAN;PriorityMAC protocol;Telosb mote testbed;TinyOS implementation;critical traffic design;high priority indication space;human safety;industrial automation;industrial standard;industrial wireless sensor and actuator network;material loss;noncritical monitoring traffic;priority-enhanced medium access control protocol;system failure;system instability;transmission bandwidth;wired communication;Delays;IEEE 802.15 Standards;Protocols;Time division multiple access;Wireless communication;Wireless sensor networks;ISA100.11a;MAC protocols;WirelessHART;industrial wireless sensor and actuator networks (IWSANs);priority},
  number       = {1},
  pages        = {824--835},
  title        = {PriorityMAC: A Priority-Enhanced MAC Protocol for Critical Traffic in Industrial Wireless Sensor and Actuator Networks},
  volume       = {10},
}

@article{pedamacs,
  author       = {Ergen, S.C. and Varaiya, P.},
  date         = {2006-07},
  doi          = {10.1109/TMC.2006.100},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;delays;scheduling;time division multiple access;wireless sensor networks;PEDAMACS;delay aware medium access protocol;high-powered access point;multihop sensor networks;power efficiency;scheduling algorithm;time division multiple access;Access protocols;Network topology;Operating systems;Scheduling algorithm;Sensor systems;Sleep;Spread spectrum communication;Telecommunication traffic;Time division multiple access;Traffic control;Sensor networks;delay guarantee.;energy efficiency},
  number       = {7},
  pages        = {920--930},
  title        = {PEDAMACS: power efficient and delay aware medium access protocol for sensor networks},
  volume       = {5},
}

@inproceedings{hymac,
  author    = {Salajegheh, M. and Soroush, H. and Kalis, A.},
  booktitle = {Personal, Indoor and Mobile Radio Communications, 2007. PIMRC 2007. IEEE 18th International Symposium on},
  date      = {2007-09},
  doi       = {10.1109/PIMRC.2007.4394374},
  keywords  = {frequency division multiple access;time division multiple access;wireless sensor networks;MAC layer protocol;end-to-end delay;energy-efficient collision-free manner;hybrid TDMA-FDMA medium access control protocol;real-time voice streaming;sensor node hardware platforms;wireless sensor networks;Access protocols;Bandwidth;Frequency division multiaccess;Hardware;Media Access Protocol;Temperature sensors;Throughput;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {1--5},
  title     = {HYMAC: Hybrid TDMA/FDMA Medium Access Control Protocol for Wireless Sensor Networks},
}

@inproceedings{alert,
  author    = {Namboodiri, Vinod and Keshavarzian, Abtin},
  location  = {Washington, DC, USA},
  publisher = {IEEE Computer Society},
  url       = {http://dx.doi.org/10.1109/IPSN.2008.23},
  booktitle = {Proceedings of the 7th International Conference on Information Processing in Sensor Networks},
  date      = {2008},
  doi       = {10.1109/IPSN.2008.23},
  isbn      = {978-0-7695-3157-1},
  keywords  = {Wireless Sensor Networks,MAC Protocol},
  pages     = {159--170},
  series    = {IPSN '08},
  title     = {Alert: An Adaptive Low-Latency Event-Driven MAC Protocol for Wireless Sensor Networks},
}

@incollection{sift,
  author    = {Jamieson, Kyle and Balakrishnan, Hari and Tay, Y.C.},
  editor    = {Römer, Kay and Karl, Holger and Mattern, Friedemann},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11669463_20},
  booktitle = {Wireless Sensor Networks},
  date      = {2006},
  doi       = {10.1007/11669463_20},
  isbn      = {978-3-540-32158-3},
  pages     = {260--275},
  series    = {Lecture Notes in Computer Science},
  title     = {Sift: A MAC Protocol for Event-Driven Wireless Sensor Networks},
  volume    = {3868},
}

@inproceedings{rrmac,
  author    = {Kim, Jungsook and Lim, Jaehan and Pelczar, C. and Jang, Byungtae},
  booktitle = {Consumer Electronics, 2008. ISCE 2008. IEEE International Symposium on},
  date      = {2008-04},
  doi       = {10.1109/ISCE.2008.4559491},
  keywords  = {access protocols;packet radio networks;telecommunication network reliability;time division multiple access;wireless sensor networks;IEEE 802.15.4;RRMAC design;TDMA;WSN;multihop convergecast network;real-time communication;reliable packet transmission;sensor network MAC;time division multiple access;Access protocols;Delay;Intelligent transportation systems;Media Access Protocol;Multiaccess communication;Spread spectrum communication;Telecommunication network reliability;Telematics;Time division multiple access;Wireless sensor networks;MAC;real time;reliability;wireless sensor network},
  pages     = {1--4},
  title     = {RRMAC: A sensor network MAC for real time and reliable packet transmission},
}

@inproceedings{watteyene,
  author    = {Watteyne, T. and Auge-Blum, I.},
  booktitle = {Modeling, Analysis, and Simulation of Computer and Telecommunication Systems, 2005. 13th IEEE International Symposium on},
  date      = {2005-09},
  doi       = {10.1109/MASCOTS.2005.54},
  issn      = {1526-7539},
  keywords  = {access protocols;delays;real-time systems;wireless sensor networks;communication protocol;hard real-time MAC;medium access control protocol;transmission delay;wireless sensor network;Frequency synchronization;Intelligent sensors;Interference;Laboratories;Media Access Protocol;Monitoring;Routing protocols;Scheduling;Wireless application protocol;Wireless sensor networks},
  pages     = {533--536},
  title     = {Proposition of a hard real-time MAC protocol for wireless sensor networks},
}

@article{rrr,
  author       = {Salmani, Vahid and Chou, Pai H.},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/2661638},
  date         = {2014-12},
  doi          = {10.1145/2661638},
  issn         = {1550-4859},
  journaltitle = {ACM Trans. Sen. Netw.},
  keywords     = {Wireless sensor networks,collision detection,deterministic contention resolution,hybrid protocol,implementation,medium access control,ultra-compact nodes},
  number       = {2},
  pages        = {31:1--31:38},
  title        = {Resilient Round Robin: A Lightweight Deterministic MAC Primitive},
  volume       = {11},
}

@inproceedings{mumac,
  author    = {Barroso, A. and Roedig, U. and Sreenan, C.},
  booktitle = {Wireless Sensor Networks, 2005. Proceeedings of the Second European Workshop on},
  date      = {2005-01},
  doi       = {10.1109/EWSN.2005.1462000},
  keywords  = {access protocols;transceivers;wireless sensor networks;MAC protocols;application layer knowledge;medium access control;transceiver;wireless sensor networks;Access protocols;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Sleep;Telecommunication traffic;Transceivers;Wireless application protocol;Wireless sensor networks},
  pages     = {70--80},
  title     = {μ-MAC: an energy-efficient medium access control for wireless sensor networks},
}

@inproceedings{amac2010,
  author    = {Dutta, Prabal and Dawson-Haggerty, Stephen and Chen, Yin and Liang, Chieh-Jan Mike and Terzis, Andreas},
  location  = {Z\&\#252;rich, Switzerland},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1869983.1869985},
  booktitle = {Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems},
  date      = {2010},
  doi       = {10.1145/1869983.1869985},
  isbn      = {978-1-4503-0344-6},
  keywords  = {MAC protocols,link protocols,wireless sensor networks},
  pages     = {1--14},
  series    = {SenSys '10},
  title     = {Design and Evaluation of a Versatile and Efficient Receiver-initiated Link Layer for Low-power Wireless},
}

@inproceedings{ailmac,
  author    = {Chatterjea, S. and van Hoesel, L.F.W. and Havinga, P.J.M.},
  booktitle = {Intelligent Sensors, Sensor Networks and Information Processing Conference, 2004. Proceedings of the 2004},
  date      = {2004-12},
  doi       = {10.1109/ISSNIP.2004.1417492},
  keywords  = {access protocols;optimisation;telecommunication traffic;time division multiple access;wireless sensor networks;TDMA;adaptive MAC protocol;fairness;information-centric MAC protocol;latency;lightweight MAC protocol;localised data management framework;query dissemination;query optimisation;traffic patterns;wireless sensor networks;Access protocols;Application software;Computer science;Delay;Media Access Protocol;Monitoring;Query processing;Telecommunication traffic;Wireless application protocol;Wireless sensor networks},
  pages     = {381--388},
  title     = {AI-LMAC: an adaptive, information-centric and lightweight MAC protocol for wireless sensor networks},
}

@inproceedings{bmac,
  author    = {Polastre, Joseph and Hill, Jason and Culler, David},
  location  = {Baltimore, MD, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1031495.1031508},
  booktitle = {Proceedings of the 2Nd International Conference on Embedded Networked Sensor Systems},
  date      = {2004},
  doi       = {10.1145/1031495.1031508},
  isbn      = {1-58113-879-2},
  keywords  = {communication interfaces,energy efficient operation,media access protocols,networking,reconfigurable protocols,wireless sensor networks},
  pages     = {95--107},
  series    = {SenSys '04},
  title     = {Versatile Low Power Media Access for Wireless Sensor Networks},
}

@inproceedings{bitmac,
  author    = {Ringwald, M. and Romer, K.},
  booktitle = {Wireless Sensor Networks, 2005. Proceeedings of the Second European Workshop on},
  date      = {2005-01},
  doi       = {10.1109/EWSN.2005.1461999},
  keywords  = {access protocols;telecommunication channels;wireless sensor networks;BitMAC;communication channel;robust MAC protocol;sensor networks;Access protocols;Bandwidth;Communication channels;Computer science;Delay;Energy consumption;Energy resolution;Media Access Protocol;Robustness;Sensor phenomena and characterization},
  pages     = {57--69},
  title     = {BitMAC: a deterministic, collision-free, and robust MAC protocol for sensor networks},
}

@inproceedings{bma,
  author    = {Li, Jing and Lazarou, Georgios Y.},
  location  = {Berkeley, California, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/984622.984631},
  booktitle = {Proceedings of the 3rd International Symposium on Information Processing in Sensor Networks},
  date      = {2004},
  doi       = {10.1145/984622.984631},
  isbn      = {1-58113-846-6},
  keywords  = {MAC protocols,energy-efficiency,wireless sensor networks},
  pages     = {55--60},
  series    = {IPSN '04},
  title     = {A Bit-map-assisted Energy-efficient MAC Scheme for Wireless Sensor Networks},
}

@incollection{bpsmac,
  author    = {Klein, Alexander},
  editor    = {Sacchi, Claudio and Bellalta, Boris and Vinel, Alexey and Schlegel, Christian and Granelli, Fabrizio and Zhang, Yan},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-642-23795-9_4},
  booktitle = {Multiple Access Communications},
  date      = {2011},
  doi       = {10.1007/978-3-642-23795-9_4},
  isbn      = {978-3-642-23794-2},
  keywords  = {Random access; wireless; reliable; networks},
  pages     = {39--50},
  series    = {Lecture Notes in Computer Science},
  title     = {BPS-MAC: Backoff Preamble Based MAC Protocol with Sequential Contention Resolution},
  volume    = {6886},
}

@inproceedings{buzzbuzz,
  author    = {Liang, Chieh-Jan Mike and Priyantha, Nissanka Bodhi and Liu, Jie and Terzis, Andreas},
  location  = {Z\&\#252;rich, Switzerland},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1869983.1870014},
  booktitle = {Proceedings of the 8th ACM Conference on Embedded Networked Sensor Systems},
  date      = {2010},
  doi       = {10.1145/1869983.1870014},
  isbn      = {978-1-4503-0344-6},
  keywords  = {802.11 interference mitigation,802.15.4,error correction,wireless measurement study},
  pages     = {309--322},
  series    = {SenSys '10},
  title     = {Surviving Wi-fi Interference in Low Power ZigBee Networks},
}

@inproceedings{cmac2009b,
  author    = {Sha, Mo and Xing, Guoliang and Zhou, Gang and Liu, Shucheng and Wang, Xiaorui},
  booktitle = {INFOCOM 2009, IEEE},
  date      = {2009-04},
  doi       = {10.1109/INFCOM.2009.5062105},
  issn      = {0743-166X},
  keywords  = {access protocols;probability;radiofrequency interference;telecommunication control;wireless channels;wireless sensor networks;TinyOS;concurrent channel access;data-intensive sensing applications;energy consumption;model-driven concurrent medium access control;physical interference models;physical signal-to-interference-plus-noise-ratio;wireless sensor networks;Access protocols;Delay systems;Energy consumption;Interference;Media Access Protocol;Multiaccess communication;Power control;Signal to noise ratio;Throughput;Wireless sensor networks},
  pages     = {1845--1853},
  title     = {C-MAC: Model-Driven Concurrent Medium Access Control for Wireless Sensor Networks},
}

@article{ccmac,
  author       = {Vuran, Mehmet C. and Akyildiz, I.F.},
  date         = {2006-04},
  doi          = {10.1109/TNET.2006.872544},
  issn         = {1063-6692},
  journaltitle = {Networking, IEEE/ACM Transactions on},
  keywords     = {access protocols;telecommunication network routing;wireless sensor networks;MAC protocol;collaborative medium access control;distortion constraint;route-thru packet;spatial correlation-based access control;wireless sensor networks;Access control;Access protocols;Collaboration;Constraint theory;Filters;Intelligent networks;Intelligent sensors;Media Access Protocol;Sensor phenomena and characterization;Wireless sensor networks;CC-MAC;energy efficiency;medium access control;spatial correlation;wireless sensor networks},
  number       = {2},
  pages        = {316--329},
  title        = {Spatial correlation-based collaborative medium access control in wireless sensor networks},
  volume       = {14},
}

@article{cmac2009a,
  author       = {Liu, Sha and Fan, Kai-Wei and Sinha, Prasun},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/1614379.1614381},
  date         = {2009-11},
  doi          = {10.1145/1614379.1614381},
  issn         = {1550-4859},
  journaltitle = {ACM Trans. Sen. Netw.},
  keywords     = {Aggressive RTS,CMAC,MAC,anycast,convergent forwarding,wireless sensor networks},
  number       = {4},
  pages        = {29:1--29:34},
  title        = {CMAC: An Energy-efficient MAC Layer Protocol Using Convergent Packet Forwarding for Wireless Sensor Networks},
  volume       = {5},
}

@article{cmac2009c,
  author       = {Chowdhury, Kaushik R. and Nandiraju, Nagesh and Chanda, Pritam and Agrawal, Dharma P. and Zeng, Qing-An},
  location     = {Amsterdam, The Netherlands, The Netherlands},
  publisher    = {Elsevier Science Publishers B. V.},
  url          = {http://dx.doi.org/10.1016/j.adhoc.2008.03.004},
  date         = {2009-03},
  doi          = {10.1016/j.adhoc.2008.03.004},
  issn         = {1570-8705},
  journaltitle = {Ad Hoc Netw.},
  keywords     = {Channel allocation,Coloring,Multi-channel MAC,Sensor network,Wake-up radio},
  number       = {2},
  pages        = {307--321},
  title        = {Channel Allocation and Medium Access Control for Wireless Sensor Networks},
  volume       = {7},
}

@incollection{crankshaft,
  author    = {Halkes, G.P. and Langendoen, K.G.},
  editor    = {Langendoen, Koen and Voigt, Thiemo},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-540-69830-2_15},
  booktitle = {Wireless Sensor Networks},
  date      = {2007},
  doi       = {10.1007/978-3-540-69830-2_15},
  isbn      = {978-3-540-69829-6},
  keywords  = {Wireless Sensor Networks; MAC Protocol; Dense Networks},
  pages     = {228--244},
  series    = {Lecture Notes in Computer Science},
  title     = {Crankshaft: An Energy-Efficient MAC-Protocol for Dense Wireless Sensor Networks},
  volume    = {4373},
}

@inproceedings{csmamps,
  author    = {Mahlknecht, S. and Bock, M.},
  booktitle = {Factory Communication Systems, 2004. Proceedings. 2004 IEEE International Workshop on},
  date      = {2004-09},
  doi       = {10.1109/WFCS.2004.1377683},
  keywords  = {carrier sense multiple access;optimisation;power consumption;radio receivers;synchronisation;transceivers;wireless sensor networks;1 Mbit/s;400 ms;CSMA-MPS method;MAC protocol;distributed multihop network;low energy consumption;low power wireless sensor networks;medium access protocols;off the shelf hardware;optimisation;power consumption;preamble sampling protocol;radio receiver;radio transceivers;sampling synchronization;sensor node;wake-up mechanism;Access protocols;Bit rate;Energy consumption;Media Access Protocol;Radio transceivers;Receivers;Sampling methods;Spread spectrum communication;Wireless application protocol;Wireless sensor networks},
  pages     = {73--80},
  title     = {CSMA-MPS: a minimum preamble sampling MAC protocol for low power wireless sensor networks},
}

@inproceedings{woo2001,
  author    = {Woo, Alec and Culler, David E.},
  location  = {Rome, Italy},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/381677.381699},
  booktitle = {Proceedings of the 7th Annual International Conference on Mobile Computing and Networking},
  date      = {2001},
  doi       = {10.1145/381677.381699},
  isbn      = {1-58113-422-3},
  pages     = {221--235},
  series    = {MobiCom '01},
  title     = {A Transmission Control Scheme for Media Access in Sensor Networks},
}

@inproceedings{dwmac,
  author    = {Sun, Yanjun and Du, Shu and Gurewitz, Omer and Johnson, David B.},
  location  = {Hong Kong, Hong Kong, China},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1374618.1374627},
  booktitle = {Proceedings of the 9th ACM International Symposium on Mobile Ad Hoc Networking and Computing},
  date      = {2008},
  doi       = {10.1145/1374618.1374627},
  isbn      = {978-1-60558-073-9},
  keywords  = {broadcast traffic,duty cycling,energy,latency,medium access control,sensor networks,unicast traffic},
  pages     = {53--62},
  series    = {MobiHoc '08},
  title     = {DW-MAC: A Low Latency, Energy Efficient Demand-wakeup MAC Protocol for Wireless Sensor Networks},
}

@incollection{e2mac,
  author    = {Kim, Jae-Hyun and Kim, Ho-Nyeon and Kim, Seog-Gyu and Choi, Seung-Jun and Lee, Jai-Yong},
  editor    = {Kim, Cheeha},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-540-30582-8_30},
  booktitle = {Information Networking. Convergence in Broadband and Mobile Networking},
  date      = {2005},
  doi       = {10.1007/978-3-540-30582-8_30},
  isbn      = {978-3-540-24467-7},
  pages     = {283--292},
  series    = {Lecture Notes in Computer Science},
  title     = {Advanced MAC Protocol with Energy-Efficiency for Wireless Sensor Networks},
  volume    = {3391},
}

@inproceedings{emmac,
  author    = {Tang, Lei and Sun, Yanjun and Gurewitz, Omer and Johnson, David B.},
  location  = {Paris, France},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/2107502.2107533},
  booktitle = {Proceedings of the Twelfth ACM International Symposium on Mobile Ad Hoc Networking and Computing},
  date      = {2011},
  doi       = {10.1145/2107502.2107533},
  isbn      = {978-1-4503-0722-2},
  keywords  = {duty cycling,energy,interference,jamming,medium access control,multichannel,sensor networks},
  pages     = {23:1--23:11},
  series    = {MobiHoc '11},
  title     = {EM-MAC: A Dynamic Multichannel Energy-efficient MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{emacs,
  author    = {van Hoesel, L.F.W. and Nieberg, T. and Kip, H.J. and Havinga, P.J.M.},
  booktitle = {Vehicular Technology Conference, 2004. VTC 2004-Spring. 2004 IEEE 59th},
  date      = {2004-05},
  doi       = {10.1109/VETECS.2004.1390523},
  issn      = {1550-2252},
  keywords  = {access protocols;routing protocols;telecommunication network topology;time division multiple access;wireless sensor networks;TDMA;control message;coordinated adaptive sleeping;dynamic source routing protocol;energy-efficient MAC protocol;medium access protocol;multi-hop network;self-organizing MAC protocol;static network topology;wireless sensor networks;Access protocols;Broadcasting;Costs;Energy efficiency;Media Access Protocol;Network topology;Routing protocols;Time division multiple access;Transport protocols;Wireless sensor networks},
  pages     = {1598--1602 Vol.3},
  title     = {Advantages of a TDMA based, energy-efficient, self-organizing MAC protocol for WSNs},
  volume    = {3},
}

@incollection{fmac,
  author    = {Roedig, Utz and Barroso, Andre and Sreenan, CormacJ.},
  editor    = {Römer, Kay and Karl, Holger and Mattern, Friedemann},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11669463_21},
  booktitle = {Wireless Sensor Networks},
  date      = {2006},
  doi       = {10.1007/11669463_21},
  isbn      = {978-3-540-32158-3},
  pages     = {276--291},
  series    = {Lecture Notes in Computer Science},
  title     = {f-MAC: A Deterministic Media Access Control Protocol Without Time Synchronization},
  volume    = {3868},
}

@inproceedings{flama,
  author    = {Rajendran, V. and Garcia-Luna-Aveces, J.J. and Obraczka, K.},
  booktitle = {Mobile Adhoc and Sensor Systems Conference, 2005. IEEE International Conference on},
  date      = {2005-11},
  doi       = {10.1109/MAHSS.2005.1542852},
  keywords  = {access protocols;data communication;queueing theory;scheduling;telecommunication network reliability;wireless sensor networks;FLAMA;application-aware MAC protocols;contention-based energy-efficient MAC;data collisions;data transmission;energy savings;flow-aware medium access;medium access scheduling;medium-access control;performance evaluation;queuing delay;sensor MAC protocols;system reliability;wireless sensor networks;Access protocols;Communication system traffic control;Energy efficiency;Media Access Protocol;Road accidents;Telecommunication network reliability;Testing;Traffic control;Wireless application protocol;Wireless sensor networks},
  title     = {Energy-efficient, application-aware medium access for sensor networks},
}

@inproceedings{funneling,
  author    = {Ahn, Gahng-Seop and Hong, Se Gi and Miluzzo, Emiliano and Campbell, Andrew T. and Cuomo, Francesca},
  location  = {Boulder, Colorado, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1182807.1182837},
  booktitle = {Proceedings of the 4th International Conference on Embedded Networked Sensor Systems},
  date      = {2006},
  doi       = {10.1145/1182807.1182837},
  isbn      = {1-59593-343-3},
  keywords  = {MAC,funneling effect,wireless sensor networks},
  pages     = {293--306},
  series    = {SenSys '06},
  title     = {Funneling-MAC: A Localized, Sink-oriented MAC for Boosting Fidelity in Sensor Networks},
}

@inproceedings{gmac,
  author    = {Brownfield, M.I. and Mehrjoo, K. and Fayez, A.S. and Davis, N.J., IV},
  booktitle = {Consumer Communications and Networking Conference, 2006. CCNC 2006. 3rd IEEE},
  date      = {2006-01},
  doi       = {10.1109/CCNC.2006.1593145},
  keywords  = {Batteries;Energy management;Energy resources;Media Access Protocol;Peer to peer computing;Sensor phenomena and characterization;Telecommunication traffic;Temperature sensors;Wireless application protocol;Wireless sensor networks},
  pages     = {778--782},
  title     = {Wireless sensor network energy-adaptive mac protocol},
  volume    = {2},
}

@inproceedings{hmac,
  author    = {Wang, Heping and Zhang, Xiaobo and Khokhar, A.},
  booktitle = {Global Telecommunications Conference, 2006. GLOBECOM '06. IEEE},
  date      = {2006-11},
  doi       = {10.1109/GLOCOM.2006.493},
  issn      = {1930-529X},
  keywords  = {access protocols;telecommunication traffic;time division multiple access;wireless sensor networks;TDMA;energy-efficient low-latency MAC protocol;medium access control protocol;network traffic;packet delivery;time division multiple access;wireless sensor networks;Access protocols;Collaboration;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Telecommunication traffic;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {1--5},
  title     = {WSN05-6: An Energy-Efficient Low-Latency MAC Protocol for Wireless Sensor Networks},
}

@article{iamac,
  author       = {Dezfouli, Behnam and Radi, Marjan and Razak, Shukor Abd},
  url          = {http://arxiv.org/abs/1008.2855},
  date         = {2010},
  journaltitle = {CoRR},
  title        = {A Cross-Layer Approach for Minimizing Interference and Latency of Medium Access in Wireless Sensor Networks},
  volume       = {abs/1008.2855},
}

@article{mclmac,
  author       = {Incel, Ozlem Durmaz and van Hoesel, Lodewijk and Jansen, Pierre and Havinga, Paul},
  url          = {http://www.sciencedirect.com/science/article/pii/S1570870510000624},
  date         = {2011},
  doi          = {10.1016/j.adhoc.2010.05.003},
  issn         = {1570-8705},
  journaltitle = {Ad Hoc Networks},
  keywords     = {Schedule based communication},
  number       = {1},
  pages        = {73--94},
  title        = {MC-LMAC: A multi-channel MAC protocol for wireless sensor networks},
  volume       = {9},
}

@inproceedings{mfp,
  author    = {Bachir, A. and Barthel, D. and Heusse, M. and Duda, A.},
  booktitle = {Communications, 2006. ICC '06. IEEE International Conference on},
  date      = {2006-06},
  doi       = {10.1109/ICC.2006.255236},
  issn      = {8164-9547},
  keywords  = {Energy consumption;Energy dissipation;Media Access Protocol;Sampling methods;Sleep;Spread spectrum communication;Switches;Telecommunications;Wireless application protocol;Wireless sensor networks},
  pages     = {3365--3370},
  title     = {Micro-Frame Preamble MAC for Multihop Wireless Sensor Networks},
  volume    = {7},
}

@article{mixmac,
  author       = {Merlin, C.J. and Heinzelman, W.B.},
  date         = {2010-05},
  doi          = {10.1109/TMC.2009.153},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;scheduling;wireless sensor networks;LPL protocols;MAC protocols;channel probes;data packet;delay;energy consumption;low-power-listening protocols;network-aware adaptation;receiver;schedule adaptation;transmit-receive scheduling;wireless sensor networks;Adaptation.;Low-Power-Listening;MAC;Path Synchronization},
  number       = {5},
  pages        = {672--685},
  title        = {Schedule Adaptation of Low-Power-Listening Protocols for Wireless Sensor Networks},
  volume       = {9},
}

@inproceedings{pwmac,
  author    = {Tang, Lei and Sun, Yanjun and Gurewitz, O. and Johnson, D.B.},
  booktitle = {INFOCOM, 2011 Proceedings IEEE},
  date      = {2011-04},
  doi       = {10.1109/INFCOM.2011.5934913},
  issn      = {0743-166X},
  keywords  = {access protocols;telecommunication traffic;wireless sensor networks;MICAz motes;PW-MAC;RI-MAC;WiseMAC;X-MAC;asynchronous duty cycling;energy-efficient predictive-wakeup MAC protocol;multiple concurrent multihop traffic flow;ondemand prediction error correction mechanism;prediction-based retransmission mechanism;sensor node energy consumption;wireless collision;wireless sensor network;Clocks;Hardware;Media Access Protocol;Receivers;Wireless communication;Wireless sensor networks},
  pages     = {1305--1313},
  title     = {PW-MAC: An energy-efficient predictive-wakeup MAC protocol for wireless sensor networks},
}

@inproceedings{omac2006,
  author    = {Cao, Hui and Parker, K.W. and Arora, A.},
  booktitle = {Network Protocols, 2006. ICNP '06. Proceedings of the 2006 14th IEEE International Conference on},
  date      = {2006-11},
  doi       = {10.1109/ICNP.2006.320181},
  keywords  = {access protocols;energy conservation;wireless sensor networks;MAC layer protocols;asynchronous wake-up;centralized deterministic scheduling;energy efficiency;local broadcast channel;preamble-sized slots;random time spreading;receiver centric power management protocol;receiver energy consumption;structured time-spreading;synchronous blinking;wireless sensor networks;Energy consumption;Energy efficiency;Energy management;Interference elimination;Media Access Protocol;Radio transmitters;Receivers;Technology management;Wireless application protocol;Wireless sensor networks},
  pages     = {311--320},
  title     = {O-MAC: A Receiver Centric Power Management Protocol},
}

@inproceedings{pact,
  author    = {Pei, Guangyu and Chien, C.},
  booktitle = {Military Communications Conference, 2001. MILCOM 2001. Communications for Network-Centric Operations: Creating the Information Force. IEEE},
  date      = {2001},
  doi       = {10.1109/MILCOM.2001.985817},
  keywords  = {LAN interconnection;distributed sensors;military communication;network topology;packet radio networks;power consumption;telecommunication traffic;time division multiple access;PACT;adaptive duty cycle;battlefield surveillance;cluster heads;condition based monitoring;energy dissipation;gateways;large wireless sensor networks;low power communication protocols;network lifetime;passive clustering;power aware clustered TDMA;redundant dense topology;space exploration;user traffic;wireless multihop network;Condition monitoring;Power system interconnection;Protocols;Sensor phenomena and characterization;Sensor systems;Space exploration;Spread spectrum communication;Surveillance;Time division multiple access;Wireless sensor networks},
  pages     = {347--351 vol.1},
  title     = {Low power TDMA in large wireless sensor networks},
  volume    = {1},
}

@inproceedings{pcm,
  author    = {Jung, Eun-Sun and Vaidya, Nitin H.},
  location  = {Atlanta, Georgia, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/570645.570651},
  booktitle = {Proceedings of the 8th Annual International Conference on Mobile Computing and Networking},
  date      = {2002},
  doi       = {10.1145/570645.570651},
  isbn      = {1-58113-486-X},
  keywords  = {ad hoc network,energy saving,medium access control,power control},
  pages     = {36--47},
  series    = {MobiCom '02},
  title     = {A Power Control MAC Protocol for Ad Hoc Networks},
}

@inproceedings{guo2001,
  author    = {Guo, Chunlong and Zhong, Lizhi Charlie and Rabaey, J.M.},
  booktitle = {Global Telecommunications Conference, 2001. GLOBECOM '01. IEEE},
  date      = {2001},
  doi       = {10.1109/GLOCOM.2001.965967},
  keywords  = {carrier sense multiple access;channel allocation;distributed algorithms;distributed sensors;packet radio networks;spread spectrum communication;telecommunication network reliability;CSMA;ad hoc networks;adaptability;adaptive protocol;distributed algorithm;dynamic channel assignment;low-power distributed MAC;mobility awareness;multi-hop wireless sensor networks;network maintenance overhead;power efficiency;scalability;sensor radio networks;spread spectrum technique;survivability;wake-up radio scheme;Bandwidth;Batteries;Design optimization;Energy consumption;Media Access Protocol;Radio network;Radio networks;Scalability;Spread spectrum communication;Wireless sensor networks},
  pages     = {2944--2948 vol.5},
  title     = {Low power distributed MAC for ad hoc sensor radio networks},
  volume    = {5},
}

@inproceedings{qmac2006,
  author    = {Vasanthi, N.A. and Annadurai, S.},
  booktitle = {Sensor Networks, Ubiquitous, and Trustworthy Computing, 2006. IEEE International Conference on},
  date      = {2006-06},
  doi       = {10.1109/SUTC.2006.64},
  keywords  = {access protocols;dynamic scheduling;query processing;wireless sensor networks;Q-MAC;data transmission;dynamic schedule;energy efficient sleep schedule;medium access control;packet arrival time;protocol;query based sensor network;Area measurement;Current measurement;Delay;Dynamic scheduling;Energy consumption;Energy efficiency;Frequency measurement;Intelligent networks;Sleep;Temperature measurement;Energy consumption.;Latency;MAC;Query processing;Sensor networks;Sleep planning;protocols},
  pages     = {214--219},
  title     = {Energy Efficient Sleep Schedule for Achieving Minimum Latency in Query based Sensor Networks},
  volume    = {2},
}

@inproceedings{qmac2005,
  author    = {Liu, Yang and Elhanany, I. and Qi, Hairong},
  booktitle = {Mobile Adhoc and Sensor Systems Conference, 2005. IEEE International Conference on},
  date      = {2005-11},
  doi       = {10.1109/MAHSS.2005.1542798},
  keywords  = {access protocols;quality of service;queueing theory;scheduling;wireless sensor networks;MAC protocol;energy-efficient QoS-aware protocol;intra-node packet scheduling;loosely prioritized random access;media access control protocol;packet classification;power conservation MACAW;power-aware scheduling mechanism;quality of service;queue occupancies;queuing architecture;weighted arbitration;wireless sensor networks;Access protocols;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Quality of service;Scheduling algorithm;Spread spectrum communication;Wireless application protocol;Wireless sensor networks},
  title     = {An energy-efficient QoS-aware media access control protocol for wireless sensor networks},
}

@article{miller2005,
  author       = {Miller, M.J. and Vaidya, N.F.},
  date         = {2005-05},
  doi          = {10.1109/TMC.2005.31},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;energy conservation;packet radio networks;power consumption;wireless sensor networks;MAC protocol;buffered packets;communication energy cost;sensor network energy consumption reduction;triggered wakeups;two-radio architecture;wakeup radio;Access protocols;Buffer storage;Communication system control;Costs;Energy consumption;Energy management;Hardware;Media Access Protocol;Switches;Wireless sensor networks;Index Terms- Sensor networks;power management.},
  number       = {3},
  pages        = {228--242},
  title        = {A MAC protocol to reduce sensor network energy consumption using a wakeup radio},
  volume       = {4},
}

@inproceedings{tricer,
  author    = {Lin, E.-Y.A. and Rabaey, J.M. and Wolisz, A.},
  booktitle = {Communications, 2004 IEEE International Conference on},
  date      = {2004-06},
  doi       = {10.1109/ICC.2004.1313259},
  keywords  = {fading channels;optimisation;radio receivers;radio transmitters;synchronisation;wireless sensor networks;MAC layer;dense wireless sensor networks;fading channel;optimization strategies;power-efficient rendez-vous schemes;receiver-initiated cycled receiver schemes;synchronization;transmitter-initiated cycled receiver schemes;Energy consumption;Fading;Hardware;Intelligent sensors;Monitoring;Physical layer;Routing;Sensor phenomena and characterization;Transceivers;Wireless sensor networks},
  pages     = {3769--3776 Vol.7},
  title     = {Power-efficient rendez-vous schemes for dense wireless sensor networks},
  volume    = {7},
}

@inproceedings{rlmac2006a,
  author    = {Liu, Zhenzhen and Elhanany, I.},
  booktitle = {Networking, Sensing and Control, 2006. ICNSC '06. Proceedings of the 2006 IEEE International Conference on},
  date      = {2006},
  doi       = {10.1109/ICNSC.2006.1673243},
  keywords  = {access protocols;computational complexity;learning (artificial intelligence);quality of service;telecommunication control;telecommunication traffic;wireless sensor networks;MAC protocol;QoS-aware reinforcement learning;RL-MAC;adaptive duty cycles;adaptive media access control protocol;computational complexity;energy consumption;energy utilization;quality of service;traffic load;wireless sensor networks;Access protocols;Adaptive control;Energy consumption;Learning;Media Access Protocol;Programmable control;Telecommunication traffic;Throughput;Wireless application protocol;Wireless sensor networks;QoS;energy-efficient protocol;media access control;reinforcement learning;wireless sensor networks},
  pages     = {768--773},
  title     = {RL-MAC: A QoS-Aware Reinforcement Learning based MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{rmac2006,
  author    = {Biswas, Ratnabali and Jain, Vivek and Ghosh, C. and Agrawal, D.P.},
  booktitle = {World of Wireless, Mobile and Multimedia Networks, 2006. WoWMoM 2006. International Symposium on a},
  date      = {2006},
  doi       = {10.1109/WOWMOM.2006.80},
  keywords  = {access protocols;fault tolerance;telecommunication network reliability;wireless sensor networks;fault-tolerance;on-demand RMAC protocol;reliable medium access control;wireless sensor network;Access protocols;Delay;Fault tolerant systems;Media Access Protocol;Robustness;Scalability;Telecommunication network reliability;Wireless application protocol;Wireless communication;Wireless sensor networks},
  title     = {On-demand reliable medium access in sensor networks},
}

@inproceedings{rtlink,
  author    = {Rowe, A. and Mangharam, R. and Rajkumar, R.},
  booktitle = {Sensor and Ad Hoc Communications and Networks, 2006. SECON '06. 2006 3rd Annual IEEE Communications Society on},
  date      = {2006-09},
  doi       = {10.1109/SAHCN.2006.288496},
  keywords  = {delays;indoor radio;mobile radio;protocols;radio links;software engineering;synchronisation;telecommunication computing;CMU FireFly sensor platform;RT-link;atomic clock receivers;end-to-end delay;energy-constrained multihop wireless networks;hardware-based global-time synchronization;hardware-based time-synchronization;in-band software-based techniques;mobile nodes;real-time wireless communication;time-synchronized link protocol;Atomic clocks;Delay;Industrial control;Receivers;Spread spectrum communication;Surveillance;Synchronization;Wireless application protocol;Wireless communication;Wireless networks},
  pages     = {402--411},
  title     = {RT-Link: A Time-Synchronized Link Protocol for Energy-Constrained Multi-hop Wireless Networks},
  volume    = {2},
}

@inproceedings{samac,
  author    = {Ansari, J. and Ang, T. and Mahonen, P.},
  booktitle = {Sensor Mesh and Ad Hoc Communications and Networks (SECON), 2010 7th Annual IEEE Communications Society Conference on},
  date      = {2010-06},
  doi       = {10.1109/SECON.2010.5508296},
  keywords  = {access protocols;data communication;interference (signal);low-power electronics;performance evaluation;wireless sensor networks;data communication;dynamic channel selection;interference minimal channel;low-power embedded networks;low-power spectrum agile medium access control protocol wireless sensor networks;performance degradation;performance evaluation;potential interferences;protocol design;resource constrained networks;symbiotic coexistence;wireless embedded devices;wireless embedded networks;Access protocols;Data communication;Degradation;Energy efficiency;Interference constraints;Media Access Protocol;Sensor phenomena and characterization;Symbiosis;Wireless application protocol;Wireless sensor networks},
  pages     = {1--9},
  title     = {Spectrum Agile Medium Access Control Protocol for Wireless Sensor Networks},
}

@inproceedings{scp,
  author    = {Ye, Wei and Silva, Fabio and Heidemann, John},
  location  = {Boulder, Colorado, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1182807.1182839},
  booktitle = {Proceedings of the 4th International Conference on Embedded Networked Sensor Systems},
  date      = {2006},
  doi       = {10.1145/1182807.1182839},
  isbn      = {1-59593-343-3},
  keywords  = {energy efficiency,medium access control,scheduling,ultra-low duty cycle,wireless sensor networks},
  pages     = {321--334},
  series    = {SenSys '06},
  title     = {Ultra-low Duty Cycle MAC with Scheduled Channel Polling},
}

@incollection{seesaw,
  author    = {Braynard, Rebecca and Silberstein, Adam and Ellis, Carla},
  editor    = {Römer, Kay and Karl, Holger and Mattern, Friedemann},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11669463_19},
  booktitle = {Wireless Sensor Networks},
  date      = {2006},
  doi       = {10.1007/11669463_19},
  isbn      = {978-3-540-32158-3},
  pages     = {244--259},
  series    = {Lecture Notes in Computer Science},
  title     = {Extending Network Lifetime Using an Automatically Tuned Energy-Aware MAC Protocol},
  volume    = {3868},
}

@article{smacs,
  author       = {Sohrabi, K. and Gao, J. and Ailawadhi, V. and Pottie, G.J.},
  date         = {2000-10},
  doi          = {10.1109/98.878532},
  issn         = {1070-9916},
  journaltitle = {Personal Communications, IEEE},
  keywords     = {cellular radio;protocols;radio networks;self-adjusting systems;sensors;signal processing;telecommunication network routing;MAC protocols;ad hoc subnetworks;algorithms;cellular networks;constrained energy resources;cooperative signal processing;energy-efficient routing;medium access control;mobile ad hoc networks;protocols;routing protocols;self-organizing wireless sensor networks;short range wireless local area networks;slow mobility;static nodes;wireless LAN;Data mining;Energy resources;Mobile ad hoc networks;Peer to peer computing;Quality of service;Routing protocols;Signal processing algorithms;Spread spectrum communication;Wireless application protocol;Wireless sensor networks},
  number       = {5},
  pages        = {16--27},
  title        = {Protocols for self-organization of a wireless sensor network},
  volume       = {7},
}

@inproceedings{sotp,
  author    = {Wang, Yu and Henning, I. and Li, Xiaoyun and Hunter, D.},
  booktitle = {Electrical and Computer Engineering, 2006. CCECE '06. Canadian Conference on},
  date      = {2006-05},
  doi       = {10.1109/CCECE.2006.277307},
  keywords  = {ad hoc networks;scheduling;telecommunication network routing;telecommunication network topology;time division multiple access;wireless channels;wireless sensor networks;MAC scheme;carrier sensing slot;channel contention;collision-free slot allocation;cross layer protocol design;multi-hop network;network topology;reverse scheduling;routing information;self-organized TDMA protocol;time division multiple access;wireless sensor network;Application software;Cross layer design;Data communication;Energy efficiency;Hardware;Routing;Spread spectrum communication;Time division multiple access;Wireless application protocol;Wireless sensor networks;Energy efficiency;Self-organize;TDMA;Wireless sensor networks},
  pages     = {1108--1111},
  title     = {SOTP: A Self-Organized TDMA Protocol for Wireless Sensor Networks},
}

@article{sstdma,
  author       = {Kulkarni, Sandeep S and Arumugam, Mahesh},
  publisher    = {Citeseer},
  date         = {2006},
  journaltitle = {Sensor network operations},
  pages        = {186--218},
  title        = {SS-TDMA: A self-stabilizing MAC for sensor networks},
}

@incollection{tamac,
  author    = {Gong, Haigang and Liu, Ming and Mao, Yinchi and Chen, Li-jun and Xie, Li},
  editor    = {Lu, Xicheng and Zhao, Wei},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11534310_118},
  booktitle = {Networking and Mobile Computing},
  date      = {2005},
  doi       = {10.1007/11534310_118},
  isbn      = {978-3-540-28102-3},
  pages     = {1134--1143},
  series    = {Lecture Notes in Computer Science},
  title     = {Traffic Adaptive MAC Protocol for Wireless Sensor Network},
  volume    = {3619},
}

@inproceedings{trawmac,
  author    = {Zhang, Xi and Ansari, Junaid and Mähönen, Petri},
  location  = {Tenerife, Canary Islands, Spain},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1641776.1641802},
  booktitle = {Proceedings of the 7th ACM International Symposium on Mobility Management and Wireless Access},
  date      = {2009},
  doi       = {10.1145/1641776.1641802},
  isbn      = {978-1-60558-617-5},
  keywords  = {low power,mac,traffic awareness,wireless sensor networks},
  pages     = {140--148},
  series    = {MobiWAC '09},
  title     = {Traffic Aware Medium Access Control Protocol for Wireless Sensor Networks},
}

@inproceedings{umac,
  author    = {Yang, Shih-Hsien and Tseng, Hung-Wei and Wu, E.H.-K. and Chen, Gen-Huey},
  booktitle = {Global Telecommunications Conference, 2005. GLOBECOM '05. IEEE},
  date      = {2005-12},
  doi       = {10.1109/GLOCOM.2005.1578377},
  keywords  = {access protocols;energy conservation;telecommunication network topology;tuning;wireless sensor networks;MAC protocol;chain topology;cross topology;duty cycle;energy consumption;latency reduction;medium access control protocol;selective sleeping;sensor nodes;sensor-MAC;utilization based tuning;wireless sensor networks;Access protocols;Computer science;Delay;Energy consumption;Media Access Protocol;Sensor phenomena and characterization;Sleep;Topology;Wireless application protocol;Wireless sensor networks},
  title     = {Utilization based duty cycle tuning MAC protocol for wireless sensor networks},
  volume    = {6},
}

@inproceedings{pereira2007,
  author    = {Pereira, N. and Andersson, B. and Tovar, E. and Rowe, A.},
  booktitle = {Real-Time Systems Symposium, 2007. RTSS 2007. 28th IEEE International},
  date      = {2007-12},
  doi       = {10.1109/RTSS.2007.45},
  issn      = {1052-8725},
  keywords  = {access protocols;radio networks;scheduling;MAC protocol;bit-dominance message arbitration;multiple broadcast domain;sporadic message streams;static-priority scheduling;wireless hidden node problem;wireless medium access control protocol;wireless mesh network;wireless multihop networks;Access protocols;Broadcasting;Clocks;Media Access Protocol;Mesh networks;Signal resolution;Synchronization;Wireless application protocol;Wireless mesh networks;Wireless networks},
  pages     = {447--458},
  title     = {Static-Priority Scheduling over Wireless Networks with Multiple Broadcast Domains},
}

@incollection{arisha2002,
  author    = {Arisha, Khaled and Youssef, Moustafa and Younis, Mohamed},
  editor    = {Karri, Ramesh and Goodman, David},
  language  = {English},
  publisher = {Springer US},
  url       = {http://dx.doi.org/10.1007/0-306-47720-3_2},
  booktitle = {System-Level Power Optimization for Wireless Multimedia Communication},
  date      = {2002},
  doi       = {10.1007/0-306-47720-3_2},
  isbn      = {978-1-4020-7204-8},
  keywords  = {Medium Access Control (MAC) protocols; Sensor networks; Energy-aware routing; Time Division Multiple Access (TDMA)},
  pages     = {21--40},
  title     = {Energy-Aware TDMA-Based MAC for Sensor Networks},
}

@inproceedings{mmsn,
  author    = {Zhou, Gang and Huang, Chengdu and Yan, Ting and He, Tian and Stankovic, John A and Abdelzaher, Tarek F},
  booktitle = {Infocom},
  date      = {2006},
  pages     = {1--13},
  title     = {MMSN: Multi-Frequency Media Access Control for Wireless Sensor Networks.},
  volume    = {6},
}

@inproceedings{qosmac,
  author    = {Suriyachai, P. and Roedig, U. and Scott, A.},
  booktitle = {Pervasive Computing and Communications, 2009. PerCom 2009. IEEE International Conference on},
  date      = {2009-03},
  doi       = {10.1109/PERCOM.2009.4912839},
  keywords  = {access protocols;delays;quality of service;telecommunication network reliability;transceivers;wireless sensor networks;MAC protocol;QoS;Tmote Sky node;aircraft control systems;energy consumption;hospitals;industrial process automation;medium access control protocol;message transfer delay;patient monitoring;quality of service;transceiver;wireless sensor networks;Access protocols;Aerospace industry;Delay;Electrical equipment industry;Industrial control;Media Access Protocol;Quality of service;Transport protocols;Wireless application protocol;Wireless sensor networks},
  pages     = {1--6},
  title     = {Implementation of a MAC protocol for QoS support in wireless sensor networks},
}

@inproceedings{dsmac,
  author    = {Lin, Peng and Qiao, Chunming and Wang, Xin},
  booktitle = {Wireless Communications and Networking Conference, 2004. WCNC. 2004 IEEE},
  date      = {2004-03},
  doi       = {10.1109/WCNC.2004.1311671},
  issn      = {1525-3511},
  keywords  = {access protocols;telecommunication traffic;wireless sensor networks;dynamic duty cycle;medium access control protocol;traffic conditions;wireless sensor networks;Access protocols;Clocks;Communication system traffic control;Delay;Energy conservation;Energy consumption;Media Access Protocol;Synchronization;Wireless application protocol;Wireless sensor networks},
  pages     = {1534--1539 Vol.3},
  title     = {Medium access control with a dynamic duty cycle for sensor networks},
  volume    = {3},
}

@inproceedings{ermac,
  author    = {Sitanayah, L. and Sreenan, C.J. and Brown, K.N.},
  booktitle = {Sensor Technologies and Applications (SENSORCOMM), 2010 Fourth International Conference on},
  date      = {2010-07},
  doi       = {10.1109/SENSORCOMM.2010.45},
  keywords  = {carrier sense multiple access;emergency services;telecommunication network topology;time division multiple access;wireless sensor networks;CSMA approach;ER-MAC;TDMA approach;Z-MAC;collision-free slot scheduling;emergency monitoring;emergency response wireless sensor networks;hybrid MAC protocol;ns-2 simulation;power-saving sleep mode;topology change;traffic change;Base stations;Media Access Protocol;Pediatrics;Schedules;Synchronization;Time division multiple access;MAC protocol;fire emergency;wireless sensor networks},
  pages     = {244--249},
  title     = {ER-MAC: A Hybrid MAC Protocol for Emergency Response Wireless Sensor Networks},
}

@article{rimasp,
  author       = {Garcia-Luna-Aceves, J. J. and Tzamaloukas, Asimakis},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1023/A:1013794026681},
  date         = {2002-03},
  doi          = {10.1023/A:1013794026681},
  issn         = {1022-0038},
  journaltitle = {Wirel. Netw.},
  keywords     = {MAC,Medium Access Control,ad hoc networks,collision avoidance,performance analysis,receiver-initiated,wireless},
  number       = {2/3},
  pages        = {249--263},
  title        = {Receiver-initiated Collision Avoidance in Wireless Networks},
  volume       = {8},
}

@inproceedings{rrap,
  author    = {Lai, Jian-Jou and Lee, Shie-Jue},
  booktitle = {Communications, 1998. ICC 98. Conference Record. 1998 IEEE International Conference on},
  date      = {1998-06},
  doi       = {10.1109/ICC.1998.682605},
  keywords  = {access protocols;data communication;delays;voice communication;wireless LAN;RAP protocol;average access delay;medium access control protocol;randomly addressed polling;real-time services;reservation scheme;throughput;voice transmission;wireless LAN;wireless networks;Access protocols;Broadcasting;Delay;Laboratories;Media Access Protocol;Multiaccess communication;Speech;Throughput;Wireless application protocol;Wireless networks},
  pages     = {146--150 vol.1},
  title     = {A medium access control protocol for wireless networks},
  volume    = {1},
}

@incollection{vts,
  author    = {Egea-López, Esteban and Vales-Alonso, Javier and Martínez-Sala, AlejandroS. and García-Haro, Joan and Pavón-Mariño, Pablo and Bueno-Delgado, M.Victoria},
  editor    = {Grass, Werner and Sick, Bernhard and Waldschmidt, Klaus},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11682127_27},
  booktitle = {Architecture of Computing Systems - ARCS 2006},
  date      = {2006},
  doi       = {10.1007/11682127_27},
  isbn      = {978-3-540-32765-3},
  pages     = {382--396},
  series    = {Lecture Notes in Computer Science},
  title     = {A Real-Time MAC Protocol for Wireless Sensor Networks: Virtual TDMA for Sensors (VTS)},
  volume    = {3894},
}

@inproceedings{tmmac,
  author    = {Zhang, Jingbin and Zhou, Gang and Huang, Chengdu and Son, S.H. and Stankovic, J.A.},
  booktitle = {Communications, 2007. ICC '07. IEEE International Conference on},
  date      = {2007-06},
  doi       = {10.1109/ICC.2007.587},
  keywords  = {ad hoc networks;time division multiple access;transceivers;TDMA;ad hoc networks;energy efficient multi-channel MAC protocol;multichannel MAC protocol;single half-duplex radio transceiver;single-transceiver wireless devices;Ad hoc networks;Energy efficiency;Frequency;Hardware;Media Access Protocol;Peer to peer computing;Radio transceivers;Throughput;Time division multiple access;Wireless application protocol},
  pages     = {3554--3561},
  title     = {TMMAC: An Energy Efficient Multi-Channel MAC Protocol for Ad Hoc Networks},
}

@article{pip,
  author       = {Gabale, Vijay and Chebrolu, Kameswari and Raman, Bhaskaran and Bijwe, Sagar},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/2240116.2240117},
  date         = {2012-09},
  doi          = {10.1145/2240116.2240117},
  issn         = {1550-4859},
  journaltitle = {ACM Trans. Sen. Netw.},
  keywords     = {Bulk data transfer,MAC,TDMA,pipelining,throughput optimization,wireless sensor network applications},
  number       = {4},
  pages        = {28:1--28:34},
  title        = {PIP: A Multichannel, TDMA-based MAC for Efficient and Scalable Bulk Transfer in Sensor Networks},
  volume       = {8},
}

@inproceedings{burstmac,
  author    = {Ringwald, M. and Romer, K.},
  booktitle = {Networked Sensing Systems (INSS), 2009 Sixth International Conference on},
  date      = {2009-06},
  doi       = {10.1109/INSS.2009.5409961},
  keywords  = {access protocols;telecommunication control;telecommunication traffic;wireless sensor networks;BurstMAC;LMAC;MAC protocol;SCP-MAP;contention-based protocols;correlated bursts;correlated traffic bursts;network traffic;scheduled protocols;seismic data traces;sensor network;volcano monitoring;Access protocols;Communication system traffic control;Media Access Protocol;Monitoring;Pervasive computing;Radio control;Sampling methods;Telecommunication traffic;Throughput;Volcanoes},
  pages     = {1--9},
  title     = {BurstMAC — An efficient MAC protocol for correlated traffic bursts},
}

@inproceedings{dozer,
  author    = {Burri, N. and von Rickenbach, P. and Wattenhofer, R.},
  booktitle = {Information Processing in Sensor Networks, 2007. IPSN 2007. 6th International Symposium on},
  date      = {2007-04},
  doi       = {10.1109/IPSN.2007.4379705},
  keywords  = {access protocols;energy consumption;low-power electronics;packet radio networks;wireless sensor networks;MAC-layer;TinyOS-enabled sensor nodes;communication subsystem;data collection;data sink;dozer;energy consumption;energy wastage reduction;environmental monitoring;sensor networks;topology control;tree-based network structure;ultra-low power consumption;ultra-low power data gathering protocol;Computer networks;Data engineering;Energy efficiency;Laboratories;Monitoring;Power engineering and energy;Power engineering computing;Routing protocols;Sensor phenomena and characterization;Wireless sensor networks;Algortithms;Measurement;Sensor network;data gathering;energy efficiency},
  pages     = {450--459},
  title     = {Dozer: Ultra-Low Power Data Gathering in Sensor Networks},
}

@inproceedings{rmac2004,
  author       = {Datta, Suprakash},
  organization = {Citeseer},
  booktitle    = {proceedings of the Second Workshop on Sensor and Actor Networks and Protocols (SANPA'04)},
  date         = {2004},
  title        = {RMAC: a randomized adaptive medium access control algorithm for sensor networks},
}

@inproceedings{camac2011,
  author    = {Liu, Bin and Yan, Zhisheng and Chen, Chang Wen},
  booktitle = {e-Health Networking Applications and Services (Healthcom), 2011 13th IEEE International Conference on},
  date      = {2011-06},
  doi       = {10.1109/HEALTH.2011.6026748},
  keywords  = {body area networks;telecommunication traffic;time division multiple access;time-varying channels;wireless channels;CA-MAC;TDMA-based approach;channel-aware MAC protocol;contention-based approach;deep fading;dynamic control mechanism;emergency traffic requirement management;fading channel;frequent body movement;hybrid context-aware MAC protocol;master node;packet loss;polling-based technique;schedule-based technique;time-varying channel;traffic loads;traffic-aware MAC protocol;wireless body area network;Body area networks;Fading;Media Access Protocol;Sensors;Time division multiple access;Wireless communication;Wireless sensor networks;Context Aware;Hybrid;MAC;WBAN},
  pages     = {213--216},
  title     = {CA-MAC: A Hybrid context-aware MAC protocol for wireless body area networks},
}

@article{uctdma,
  author       = {Tiwari, Ankit and Ballal, Prasanna and Lewis, Frank L.},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/1210669.1210670},
  date         = {2007-03},
  doi          = {10.1145/1210669.1210670},
  issn         = {1550-4859},
  journaltitle = {ACM Trans. Sen. Netw.},
  keywords     = {Condition-based maintenance,TDMA,medium access control (MAC)},
  number       = {1},
  title        = {Energy-efficient Wireless Sensor Network Design and Implementation for Condition-based Maintenance},
  volume       = {3},
}

@article{flammini2009,
  author       = {Flammini, A. and Marioli, D. and Sisinni, E. and Taroni, A.},
  date         = {2009-03},
  doi          = {10.1109/TIE.2008.2011602},
  issn         = {0278-0046},
  journaltitle = {Industrial Electronics, IEEE Transactions on},
  keywords     = {carrier sense multiple access;field buses;machinery;plastics industry;protocols;radio networks;radiotelemetry;telecommunication congestion control;telecommunication network management;thermocouples;time division multiple access;acyclic communications;carrier sense multiple access;collision avoidance;event-driven protocols;hybrid medium access strategy;network management;plastic machineries;predictability requirements;reliability requirements;star topology;time division a multiple access scheduling;wireless fieldbus;wireless link;wireless real-time communication protocol;Access protocols;Automation;Field buses;Machinery;Plastics;Scalability;Temperature sensors;Wireless application protocol;Wireless communication;Wireless sensor networks;Low-power system;real-time systems;synchronization;wireless sensor network (WSN)},
  number       = {3},
  pages        = {747--755},
  title        = {Design and Implementation of a Wireless Fieldbus for Plastic Machineries},
  volume       = {56},
}

@inproceedings{flipmac,
  author    = {Carlson, D. and Terzis, A.},
  booktitle = {Distributed Computing in Sensor Systems and Workshops (DCOSS), 2011 International Conference on},
  date      = {2011-06},
  doi       = {10.1109/DCOSS.2011.5982167},
  keywords  = {access protocols;interference (signal);radio transmitters;wireless sensor networks;WSN;any-to-one communication;density-adaptive contention-reduction protocol;flip-MAC;medium access control;multiple transmitters;non-destructive interference;testbed deployment;wireless sensor network;IEEE 802.15 Standards;Media Access Protocol;Probes;Receivers;Simulation;Wireless sensor networks},
  pages     = {1--8},
  title     = {Flip-MAC: A density-adaptive contention-reduction protocol for efficient any-to-one communication},
}

@inproceedings{fleximac,
  author    = {Lee, W.L. and Datta, A. and Cardell-Oliver, R.},
  booktitle = {Networks, 2006. ICON '06. 14th IEEE International Conference on},
  date      = {2006-09},
  doi       = {10.1109/ICON.2006.302648},
  issn      = {1556-6463},
  keywords  = {fault tolerance;scheduling;synchronisation;telecommunication network topology;time division multiple access;tree searching;wireless sensor networks;FlexiMAC;communication slot;data delivery;data gathering;depth-first-search scheduling;energy efficiency;fault tolerance;flexible TDMA-based MAC protocol;medium access control;network topology;synchronization;time division multiple access;wireless sensor network;Access protocols;Energy efficiency;Fault tolerance;Media Access Protocol;Memory management;Network topology;Robustness;Throughput;Wireless application protocol;Wireless sensor networks;Medium Access Control;Sensor networks;energy efficiency;fault tolerance},
  pages     = {1--6},
  title     = {FlexiMAC: A flexible TDMA-based MAC protocol for fault-tolerant and energy-efficient wireless sensor networks},
  volume    = {2},
}

@article{picoradio,
  author       = {Rabaey, J.M. and Ammer, M.J. and da Silva, J.L., Jr. and Patel, D. and Roundy, S.},
  date         = {2000-07},
  doi          = {10.1109/2.869369},
  issn         = {0018-9162},
  journaltitle = {Computer},
  keywords     = {mobile computing;picocellular radio;wireless LAN;PicoRodio;ad hoc ultra low power wireless networking;configurable architecture;dense wireless networks;disaster mitigation;distributed computing;energy-conscious system design;environmental data;heterogeneous nodes;implementation methodology;intelligent assembly systems;interactive learning toys;monitoring networks;network elements;personalization systems;radio nodes;smart homes;technology advances;ubiquitous networks;user interface;warehouse inventory control;Communication system security;Data security;Intelligent networks;Intelligent sensors;Intelligent systems;Monitoring;Power system security;Sensor systems and applications;Smart homes;Wireless sensor networks},
  number       = {7},
  pages        = {42--48},
  title        = {PicoRadio supports ad hoc ultra-low power wireless networking},
  volume       = {33},
}

@inproceedings{pmmac,
  author    = {Le, Hieu Khac and Henriksson, Dan and Abdelzaher, Tarek},
  location  = {Washington, DC, USA},
  publisher = {IEEE Computer Society},
  url       = {http://dx.doi.org/10.1109/IPSN.2008.43},
  booktitle = {Proceedings of the 7th International Conference on Information Processing in Sensor Networks},
  date      = {2008},
  doi       = {10.1109/IPSN.2008.43},
  isbn      = {978-0-7695-3157-1},
  keywords  = {Wireless Sensor Networks,Multi-Channel,MAC,Media Access Control,Protocol},
  pages     = {70--81},
  series    = {IPSN '08},
  title     = {A Practical Multi-channel Media Access Control Protocol for Wireless Sensor Networks},
}

@incollection{swmac,
  author    = {Pak, Jinsuk and Son, Jeongho and Han, Kijun},
  editor    = {Gavrilova, MarinaL. and Gervasi, Osvaldo and Kumar, Vipin and Tan, C.J.Kenneth and Taniar, David and Laganá, Antonio and Mun, Youngsong and Choo, Hyunseung},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11751588_123},
  booktitle = {Computational Science and Its Applications - ICCSA 2006},
  date      = {2006},
  doi       = {10.1007/11751588_123},
  isbn      = {978-3-540-34072-0},
  pages     = {1159--1168},
  series    = {Lecture Notes in Computer Science},
  title     = {A MAC Protocol Using Separate Wakeup Slots for Sensor Network},
  volume    = {3981},
}

@article{nanomac,
  abstract     = {This paper describes the implementation architecture and performance analysis of nanoMAC, a CSMA/CA based Medium Access Control (MAC) protocol, which is specifically designed for high density Wireless Sensor Networks (WSNs). We empirically show that nanoMAC performs with high reliability in a variety of network traffic conditions in single and multihop scenarios. For energy efficient operation and minimising idle-overhearing, nanoMAC uses a specialised sleep algorithm. We also show results from a comparative study of nanoMAC with Berkeley's MAC (B-MAC) in terms of performance measures, as well as their coexistence in networks deployed in overlapping or nearby areas.},
  author       = {Ansari, Junaid and Riihijarvi, Janne and Mahonen, Petri and Haapola, Jussi},
  url          = {http://www.inderscienceonline.com/doi/abs/10.1504/IJSNET.2007.014361},
  date         = {2007},
  doi          = {10.1504/IJSNET.2007.014361},
  eprint       = {http://www.inderscienceonline.com/doi/pdf/10.1504/IJSNET.2007.014361},
  journaltitle = {International Journal of Sensor Networks},
  number       = {5-6},
  pages        = {341--349},
  title        = {Implementation and performance evaluation of nanoMAC: a low-power MAC solution for high density wireless sensor networks},
  volume       = {2},
}

@inproceedings{fpa,
  author    = {Li, Yuan and Ye, Wei and Heidemann, J.},
  booktitle = {Wireless Communications and Networking Conference, 2005 IEEE},
  date      = {2005-03},
  doi       = {10.1109/WCNC.2005.1424589},
  issn      = {1525-3511},
  keywords  = {access protocols;delays;distributed algorithms;energy conservation;power consumption;power control;radiowave propagation;scheduling;telecommunication control;wireless sensor networks;Berkeley motes;additional wake-up periods;data forwarding paths;energy conservation;energy consumption;energy control;fast path algorithm;global schedule algorithm;latency control;low duty cycle MAC protocols;multiple schedules;radio propagation vagaries;scheduled sleep/wakeup cycles;sensor networks;Batteries;Delay;Energy consumption;Intelligent networks;Media Access Protocol;Radio propagation;Scheduling algorithm;Sleep;Spread spectrum communication;Wireless sensor networks},
  pages     = {676--682 Vol. 2},
  title     = {Energy and latency control in low duty cycle MAC protocols},
  volume    = {2},
}

@inproceedings{msmac,
  author    = {Pham, Huan and Jha, Sanjay},
  booktitle = {Mobile Ad-hoc and Sensor Systems, 2004 IEEE International Conference on},
  date      = {2004-10},
  doi       = {10.1109/MAHSS.2004.1392207},
  keywords  = {access protocols;energy conservation;mobile radio;wireless sensor networks;adaptive mobility-aware MAC protocol;mobile ad hoc networks;mobile phone networks;mobile sensors;mobility handling mechanism;wireless sensor networks;Access protocols;Batteries;Biosensors;Computer science;Energy efficiency;Media Access Protocol;Quality of service;Switches;Wearable sensors;Wireless sensor networks},
  pages     = {558--560},
  title     = {An adaptive mobility-aware MAC protocol for sensor networks (MS-MAC)},
}

@inproceedings{e2rmac,
  author    = {Jain, Vivek and Biswas, Ratnabali and Agrawal, D.P.},
  booktitle = {World of Wireless, Mobile and Multimedia Networks, 2007. WoWMoM 2007. IEEE International Symposium on a},
  date      = {2007-06},
  doi       = {10.1109/WOWMOM.2007.4351772},
  keywords  = {Access protocols;Delay;Energy conservation;Energy efficiency;Media Access Protocol;Scalability;Telecommunication network reliability;Wireless application protocol;Wireless communication;Wireless sensor networks},
  pages     = {1--8},
  title     = {Energy-Efficient and Reliable Medium Access in Sensor Networks},
}

@inproceedings{psaloha,
  author    = {El-Hoiydi, A.},
  booktitle = {Communications, 2002. ICC 2002. IEEE International Conference on},
  date      = {2002},
  doi       = {10.1109/ICC.2002.997465},
  keywords  = {carrier sense multiple access;cells (electric);land mobile radio;radio networks;sensors;signal sampling;telecommunication signalling;telecommunication traffic;time division multiple access;Aloha protocol;CSMA;TDMA schedule;ad hoc wireless sensor networks;alkaline LR6 battery;delay performance;lifetime;low power sporadic communications;power consumption;preamble sampling;signaling traffic;sporadic data traffic transmission;sporadic traffic;Batteries;Delay;Energy consumption;Multiaccess communication;Performance analysis;Sampling methods;Telecommunication traffic;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {3418--3423 vol.5},
  title     = {Aloha with preamble sampling for sporadic traffic in ad hoc wireless sensor networks},
  volume    = {5},
}

@article{mica,
  author       = {Hill, J.L. and Culler, D.E.},
  date         = {2002-11},
  doi          = {10.1109/MM.2002.1134340},
  issn         = {0272-1732},
  journaltitle = {Micro, IEEE},
  keywords     = {computer networks;embedded systems;mobile radio;network interfaces;network operating systems;sensors;Mica wireless platform;application-specific protocols;communication;cross-layer optimizations;data serializers;deeply embedded networks;flexible interfaces;low-power integration;primitive accelerators;sensing;system-level optimizations;timing extractors;Agriculture;Bridges;Buildings;Cellular phones;Communication system control;Communication system security;Computerized monitoring;Costs;Protocols;Wireless sensor networks},
  number       = {6},
  pages        = {12--24},
  title        = {Mica: a wireless platform for deeply embedded networks},
  volume       = {22},
}

@inproceedings{eaalpl,
  author    = {Jurdak, R. and Baldi, P. and Lopes, C.},
  location  = {San Diego, CA, USA},
  booktitle = {International Workshop on Networked Sensing Systems (INSS)},
  date      = {2005-06},
  pages     = {24--29},
  title     = {Energy-Aware Low Power Listening for Sensor Networks},
}

@inproceedings{csma-mps,
  author    = {Mahlknecht, S. and Bock, M.},
  booktitle = {Factory Communication Systems, 2004. Proceedings. 2004 IEEE International Workshop on},
  date      = {2004-09},
  doi       = {10.1109/WFCS.2004.1377683},
  keywords  = {carrier sense multiple access;optimisation;power consumption;radio receivers;synchronisation;transceivers;wireless sensor networks;1 Mbit/s;400 ms;CSMA-MPS method;MAC protocol;distributed multihop network;low energy consumption;low power wireless sensor networks;medium access protocols;off the shelf hardware;optimisation;power consumption;preamble sampling protocol;radio receiver;radio transceivers;sampling synchronization;sensor node;wake-up mechanism;Access protocols;Bit rate;Energy consumption;Media Access Protocol;Radio transceivers;Receivers;Sampling methods;Spread spectrum communication;Wireless application protocol;Wireless sensor networks},
  pages     = {73--80},
  title     = {CSMA-MPS: a minimum preamble sampling MAC protocol for low power wireless sensor networks},
}

@incollection{dpsmac,
  author    = {Wang, Heping and Zhang, Xiaobo and Naït-Abdesselam, Farid and Khokhar, Ashfaq},
  editor    = {Aluru, Srinivas and Parashar, Manish and Badrinath, Ramamurthy and Prasanna, ViktorK.},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-540-77220-0_37},
  booktitle = {High Performance Computing – HiPC 2007},
  date      = {2007},
  doi       = {10.1007/978-3-540-77220-0_37},
  isbn      = {978-3-540-77219-4},
  keywords  = {Energy efficiency; MAC protocol; Wireless sensor network; Duty cycle; Low-power listening; Short strobed preamble; Dual preamble sampling},
  pages     = {393--404},
  series    = {Lecture Notes in Computer Science},
  title     = {DPS-MAC: An Asynchronous MAC Protocol for Wireless Sensor Networks},
  volume    = {4873},
}

@article{geraf,
  author       = {Zorzi, M. and Rao, R.R.},
  date         = {2003-10},
  doi          = {10.1109/TMC.2003.1255648},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;ad hoc networks;network topology;radio receivers;telecommunication network routing;wireless sensor networks;MAC;ad hoc networks;forwarding technique;geographic random forwarding;geographical location;media access control;multihop performance;sensor networks;Access protocols;Ad hoc networks;Analytical models;Batteries;Media Access Protocol;Performance analysis;Relays;Routing protocols;Spread spectrum communication;Topology},
  number       = {4},
  pages        = {337--348},
  title        = {Geographic random forwarding (GeRaF) for ad hoc and sensor networks: multihop performance},
  volume       = {2},
}

@inproceedings{onehopmac,
  author    = {Watteyne, T. and Bachir, A. and Dohler, M. and Barthel, D. and Auge-Blum, I.},
  booktitle = {Sensor and Ad Hoc Communications and Networks, 2006. SECON '06. 2006 3rd Annual IEEE Communications Society on},
  date      = {2006-09},
  doi       = {10.1109/SAHCN.2006.288524},
  keywords  = {access protocols;routing protocols;wireless sensor networks;communication architecture;communication protocols;energy consumption;energy-efficient MAC protocol;gradient based routing protocols;one-hop neighborhood knowledge avoidance;scarce battery power;wireless sensor networks;Batteries;Energy consumption;Energy efficiency;Intelligent sensors;Media Access Protocol;Relays;Routing protocols;Surveillance;Wireless application protocol;Wireless sensor networks},
  pages     = {639--644},
  title     = {1-hopMAC: An Energy-Efficient MAC Protocol for Avoiding 1 -hop Neighborhood Knowledge},
  volume    = {2},
}

@inproceedings{sp,
  author    = {Polastre, Joseph and Hui, Jonathan and Levis, Philip and Zhao, Jerry and Culler, David and Shenker, Scott and Stoica, Ion},
  location  = {San Diego, California, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1098918.1098928},
  booktitle = {Proceedings of the 3rd International Conference on Embedded Networked Sensor Systems},
  date      = {2005},
  doi       = {10.1145/1098918.1098928},
  isbn      = {1-59593-054-X},
  keywords  = {link protocols,network abstractions,network protocols,protocol architecture,wireless sensor networks},
  pages     = {76--89},
  series    = {SenSys '05},
  title     = {A Unifying Link Abstraction for Wireless Sensor Networks},
}

@article{syncwuf,
  author       = {Shi, X. and Stromberg, G.},
  date         = {2007-01},
  doi          = {10.1109/TMC.2007.250675},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;channel capacity;scheduling;transceivers;wireless sensor networks;MAC layer scheduling;RF transceiver;SyncWUF;channel capacity;low-power sleep mode;low-traffic wireless sensor network;preamble sampling technology;ultra low-power MAC;wake-up-frame scheme;wireless sensor networks;Analytical models;Batteries;Energy consumption;Media Access Protocol;Proposals;Radio frequency;Sampling methods;Transceivers;Wireless application protocol;Wireless sensor networks;MAC;Wireless sensor network;duty cycle scheduling.;low-power;wake up},
  number       = {1},
  pages        = {115--125},
  title        = {SyncWUF: An Ultra Low-Power MAC Protocol for Wireless Sensor Networks},
  volume       = {6},
}

@inproceedings{speckmac,
  author    = {Wong, Kai-Juan and Arvind, D. K.},
  location  = {Florence, Italy},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1132983.1132996},
  booktitle = {Proceedings of the 2Nd International Workshop on Multi-hop Ad Hoc Networks: From Theory to Reality},
  date      = {2006},
  doi       = {10.1145/1132983.1132996},
  isbn      = {1-59593-360-3},
  keywords  = {low-power MAC protocols,speckled computing,specknet,wireless mobile ad-hoc networks,wireless sensor networks},
  pages     = {71--78},
  series    = {REALMAN '06},
  title     = {SpeckMAC: Low-power Decentralised MAC Protocols for Low Data Rate Transmissions in Specknets},
}

@inproceedings{mxmac,
  author    = {Merlin, Christophe J. and Heinzelman, Wendi B.},
  booktitle = {Conf. on Distributed Computing in Sensor Systems (DCOSS’07 Poster Session},
  date      = {2007},
  title     = {Network-aware adaptation of MAC scheduling for Wireless Sensor Networks},
}

@article{stem,
  author       = {Schurgers, C. and Tsiatsis, V. and Ganeriwal, S. and Srivastava, M.},
  date         = {2002-01},
  doi          = {10.1109/TMC.2002.1011060},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {distributed sensors;network topology;optimisation;protocols;radiotelemetry;STEM;data forwarding;deep sleep state;energy consumption;energy efficiency;energy savings;energy-latency-density design space;hybrid wakeup scheme;network density;network lifetime;protocol;sensor networks;sparse topology and energy management;topology management;wireless sensor networks;Ad hoc networks;Delay;Design optimization;Energy consumption;Energy efficiency;Energy management;Fires;Intelligent networks;Network topology;Sleep},
  number       = {1},
  pages        = {70--80},
  title        = {Optimizing sensor networks in the energy-latency-density design space},
  volume       = {1},
}

@inproceedings{edf,
  author    = {Caccamo, M. and Zhang, L.Y. and Sha, Lui and Buttazzo, G.},
  booktitle = {Real-Time Systems Symposium, 2002. RTSS 2002. 23rd IEEE},
  date      = {2002},
  doi       = {10.1109/REAL.2002.1181560},
  issn      = {1052-8725},
  keywords  = {access protocols;cellular radio;sensors;ubiquitous computing;actuators;cost constraints;earliest deadline first;implicit prioritized access protocol;medium access control protocol;network architecture;pervasive computing;sensors;wireless sensor networks;Access protocols;Actuators;Ad hoc networks;Base stations;Costs;Media Access Protocol;Pervasive computing;Spine;Throughput;Wireless sensor networks},
  pages     = {39--48},
  title     = {An implicit prioritized access protocol for wireless sensor networks},
}

@inproceedings{dbmac,
  author    = {Bacco, Guido Di and Melodia, Tommaso and Cuomo, Francesca},
  booktitle = {In: Proc. MedHoc-Net},
  date      = {2004},
  pages     = {208--220},
  title     = {A MAC protocol for delay-bounded applications in wireless sensor networks},
}

@inproceedings{ebmac,
  author    = {Merhi, Z. and Elgamel, M. and Bayoumi, M.},
  booktitle = {Pervasive Computing and Communications, 2009. PerCom 2009. IEEE International Conference on},
  date      = {2009-03},
  doi       = {10.1109/PERCOM.2009.4912863},
  keywords  = {access protocols;wireless sensor networks;MAC protocol;MicaZ sensor motes;data packets;data traffic;event based medium access control;wireless sensor networks;Access protocols;Dynamic scheduling;Energy conservation;Event detection;Media Access Protocol;Nominations and elections;Sensor phenomena and characterization;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {1--6},
  title     = {EB-MAC: An event based medium access control for wireless sensor networks},
}

@inproceedings{macap,
  author    = {Acharya, A. and Misra, A. and Bansal, S.},
  booktitle = {Pervasive Computing and Communications, 2003. (PerCom 2003). Proceedings of the First IEEE International Conference on},
  date      = {2003-03},
  doi       = {10.1109/PERCOM.2003.1192780},
  keywords  = {access protocols;ad hoc networks;data communication;radio access networks;telecommunication congestion control;ubiquitous computing;802.11 DCF;MACA-P;RTS/CTS based MAC protocol;collision avoidance;contention-based reservation phase;control phase interval;data transfer synchronization;data transmission;multihop ad-hoc wireless networks;multiple sender-receiver pairs;parallel transmissions;performance study;pervasive computing;receivers;simultaneous transmissions;system throughput;transmitters;wireless access networks;Access protocols;Control systems;Data communication;Delay;Media Access Protocol;Pervasive computing;Spread spectrum communication;Transmitters;Wireless application protocol;Wireless networks},
  pages     = {505--508},
  title     = {MACA-P: a MAC for concurrent transmissions in multi-hop wireless networks},
}

@inproceedings{bmacplus,
  author    = {Avvenuti, M. and Corsini, P. and Masci, P. and Vecchio, A.},
  booktitle = {Mobile Computing and Wireless Communication International Conference, 2006. MCWC 2006. Proceedings of the First},
  date      = {2006-09},
  doi       = {10.1109/MCWC.2006.4375207},
  keywords  = {access protocols;wireless sensor networks;B-MAC+;MAC layer optimization;MAC protocol;contention-based protocol;event driven monitoring;low energy consumption;preamble sampling protocols;wireless sensor networks;Base stations;Delay;Energy consumption;Fires;Hardware;Media Access Protocol;Monitoring;Sampling methods;Wireless application protocol;Wireless sensor networks},
  pages     = {117--122},
  title     = {Increasing the efficiency of preamble sampling protocols for wireless sensor networks},
}

@article{bb,
  author       = {Sobrinho, J.L. and Krishnakumar, A.S.},
  date         = {1999-08},
  doi          = {10.1109/49.779919},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {carrier sense multiple access;data communication;packet radio networks;quality of service;telecommunication traffic;wireless LAN;CSMA;QoS guarantees;TDM;ad hoc wireless LAN;ad hoc wireless networks;black-burst contention;carrier sense multiple access;data nodes;data packets;distributed MAC scheme;distributed algorithm;medium access control;network performance;quality-of-service;real-time delays;real-time nodes;real-time packet transmissions;real-time packets;real-time traffic support;simulations;time division multiplexing;Communication system traffic control;Delay;Distributed algorithms;Media Access Protocol;Multiaccess communication;Quality of service;Time division multiplexing;Wireless LAN;Wireless networks;Wireless sensor networks},
  number       = {8},
  pages        = {1353--1368},
  title        = {Quality-of-service in ad hoc carrier sense multiple access wireless networks},
  volume       = {17},
}

@inproceedings{eedfmac,
  author    = {Mohiuddin, M.M. and Adithyan, I. and Rajalakshmi, P.},
  booktitle = {Advances in Computing, Communications and Informatics (ICACCI), 2013 International Conference on},
  date      = {2013-08},
  doi       = {10.1109/ICACCI.2013.6637369},
  keywords  = {carrier sense multiple access;energy conservation;wireless sensor networks;EEDF-MAC;MAC protocol;carrier sense multiple access protocol;clock-driven nodes;earliest deadline first scheduling scheme;energy efficiency;energy resources;event-driven nodes;medium access control layer;pervasive wireless sensor network;priority based latency;real time wireless media access control protocol;Clocks;Data communication;Media Access Protocol;Multiaccess communication;Schedules;Wireless sensor networks;Earliest Deadline First;Energy Efficient Protocol;Media Access Control;Prioritized Latency Reduction},
  pages     = {1323--1329},
  title     = {EEDF-MAC: An energy efficient MAC protocol for wireless sensor networks},
}

@incollection{macari,
  author    = {Chalhoub, Gérard and Guitton, Alexandre and Misson, Michel},
  editor    = {Miri, Ali},
  language  = {English},
  publisher = {Springer US},
  url       = {http://dx.doi.org/10.1007/978-0-387-09441-0_19},
  booktitle = {Wireless Sensor and Actor Networks II},
  date      = {2008},
  doi       = {10.1007/978-0-387-09441-0_19},
  isbn      = {978-0-387-09440-3},
  keywords  = {wireless sensor networks; IEEE 802.15.4; tree-based synchro-nization; energy efficient MAC},
  pages     = {221--232},
  series    = {IFIP – The International Federation for Information Processing},
  title     = {MAC specifications for a WPAN allowing both energy saving and guaranteed delay},
  volume    = {264},
}

@article{ptdma,
  author       = {Ephremides, Anthony and Mowafi, O.A.},
  date         = {1982-01},
  doi          = {10.1109/TSE.1982.234774},
  issn         = {0098-5589},
  journaltitle = {Software Engineering, IEEE Transactions on},
  keywords     = {Delay;multiple access;packet switching;stability;throughput;Computer architecture;Computer networks;Delay;Laboratories;Packet switching;Queueing analysis;Stability;Throughput;Time division multiple access;Traffic control;Delay;multiple access;packet switching;stability;throughput},
  number       = {1},
  pages        = {52--61},
  title        = {Analysis of a Hybrid Access Scheme for Buffered Users-Probabilistic Time Division},
  volume       = {SE-8},
}

@article{gra,
  author       = {Rubin, I.},
  date         = {1978-09},
  doi          = {10.1109/TIT.1978.1055940},
  issn         = {0018-9448},
  journaltitle = {Information Theory, IEEE Transactions on},
  keywords     = {Broadcast channels;Multiple-access communications;Packet switching;Additive white noise;Codes;Communication system control;Downlink;Frequency synchronization;Gaussian noise;Propagation delay;Radio broadcasting;Repeaters;Satellite broadcasting},
  number       = {5},
  pages        = {578--592},
  title        = {Group random-access disciplines for multi-access broadcast channels},
  volume       = {24},
}

@inproceedings{smac2,
  author    = {Ye, Wei and Heidemann, J. and Estrin, D.},
  booktitle = {INFOCOM 2002. Twenty-First Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE},
  date      = {2002},
  doi       = {10.1109/INFCOM.2002.1019408},
  issn      = {0743-166X},
  keywords  = {access protocols;packet radio networks;sensors;wireless LAN;Berkeley;IEEE 802.11;Mote;PAMAS;S-MAC;University of California;battery-operated computing devices;battery-operated sensing devices;contention latency reduction;energy conservation;energy consumption reduction;energy-efficient MAC protocol;environmental monitoring;idle channel;in-channel signaling;medium-access control protocol;message passing;network nodes;per-node fairness;self-configuration;sensor node;sleep schedules;store-and-forward processing;traffic load;virtual clusters;wireless LAN;wireless MAC;wireless sensor networks;Collaboration;Computer networks;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Sensor phenomena and characterization;Sleep;Wireless application protocol;Wireless sensor networks},
  pages     = {1567--1576 vol.3},
  title     = {An energy-efficient MAC protocol for wireless sensor networks},
  volume    = {3},
}

@inproceedings{leach2,
  author    = {Heinzelman, W.R. and Chandrakasan, A. and Balakrishnan, H.},
  booktitle = {System Sciences, 2000. Proceedings of the 33rd Annual Hawaii International Conference on},
  date      = {2000-01},
  doi       = {10.1109/HICSS.2000.926982},
  keywords  = {microsensors;military communication;mobile radio;protocols;sensor fusion;telecommunication network routing;LEACH;Low-Energy Adaptive Clustering Hierarchy;civil applications;clustering-based protocol;data fusion;dynamic networks;energy dissipation;energy load distribution;energy-efficient communication protocol;localized coordination;military applications;randomized local cluster based station rotation;reliable monitoring;robustness;routing protocol;scalability;simulations;useful system lifetime;wireless distributed microsensor system;Energy dissipation;Energy efficiency;Microsensors;Monitoring;Routing protocols;Scalability;Spread spectrum communication;Telecommunication network reliability;Wireless application protocol;Wireless communication},
  title     = {Energy-efficient communication protocol for wireless microsensor networks},
}

@inproceedings{trama2,
  author    = {Rajendran, Venkatesh and Obraczka, Katia and Garcia-Luna-Aceves, J. J.},
  location  = {Los Angeles, California, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/958491.958513},
  booktitle = {Proceedings of the 1st International Conference on Embedded Networked Sensor Systems},
  date      = {2003},
  doi       = {10.1145/958491.958513},
  isbn      = {1-58113-707-9},
  keywords  = {ad hoc networks,energy-efficient scheduling,sensor networks,traffic-adaptive medium access},
  pages     = {181--192},
  series    = {SenSys '03},
  title     = {Energy-efficient Collision-free Medium Access Control for Wireless Sensor Networks},
}

@inproceedings{acmac,
  author    = {Ai, Jing and Kong, J. and Turgut, D.},
  booktitle = {Computers and Communications, 2004. Proceedings. ISCC 2004. Ninth International Symposium on},
  date      = {2004-06},
  doi       = {10.1109/ISCC.2004.1358407},
  keywords  = {access protocols;energy conservation;optimisation;wireless sensor networks;IEEE 802.11 MAC;adaptive coordinated medium access control;contention-based MAC protocol;duty cycle scheme;energy efficiency;load variation;optimization;sensor application;traffic load;wireless sensor network;Access protocols;Adaptive control;Delay;Energy efficiency;Load management;Media Access Protocol;Programmable control;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {214--219 Vol.1},
  title     = {An adaptive coordinated medium access control for wireless sensor networks},
  volume    = {1},
}

@inproceedings{teamac,
  author    = {Nguyen, C.K. and Kumar, A.},
  booktitle = {Computers and Communications, 2005. ISCC 2005. Proceedings. 10th IEEE Symposium on},
  date      = {2005-06},
  doi       = {10.1109/ISCC.2005.26},
  issn      = {1530-1346},
  keywords  = {access protocols;wireless sensor networks;MAC protocol;contention-based protocol;control-packet overhead;energy waste reduction;energy-aware medium-access-control protocol;wireless sensor networks;Access protocols;Communication channels;Communication system control;Delay;Energy consumption;Media Access Protocol;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {386--391},
  title     = {An energy-aware medium-access-control protocol with frequent sleeps for wireless sensor networks},
}

@inproceedings{asteamac,
  author    = {Nguyen, C.K. and Kumar, A.},
  booktitle = {Computers and Communications, 2006. ISCC '06. Proceedings. 11th IEEE Symposium on},
  date      = {2006-06},
  doi       = {10.1109/ISCC.2006.96},
  issn      = {1530-1346},
  keywords  = {Access protocols;Energy consumption;Frequency;Media Access Protocol;Scheduling;Sleep;Throughput;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {270--276},
  title     = {Medium Access Control with Adjustable Sleeps for Wireless Sensor Networks},
}

@article{csmap,
  author       = {Tay, Y.C. and Jamieson, K. and Balakrishnan, H.},
  date         = {2004-08},
  doi          = {10.1109/JSAC.2004.830898},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {ad hoc networks;carrier sense multiple access;minimisation;stochastic processes;telecommunication traffic;wireless sensor networks;CSMA;MAC;ad hoc network;collision minimization;event-driven workload;location system;medium access control protocol;nonpersistent carrier sense multiple access;nonuniform probability distribution;poisson process;power-saving;wireless sensor network;wireless traffic;Access protocols;Ad hoc networks;Multiaccess communication;Power system modeling;Probability distribution;Sensor systems and applications;Telecommunication traffic;Traffic control;Wireless application protocol;Wireless sensor networks;CSMA;Carrier sense multiple access;MAC;medium access control;nonpersistent;performance;poisson process;sensor networks},
  number       = {6},
  pages        = {1048--1057},
  title        = {Collision-minimizing CSMA and its applications to wireless sensor networks},
  volume       = {22},
}

@inproceedings{srsa,
  author    = {Wu, Tao and Biswas, S.},
  booktitle = {Information Processing in Sensor Networks, 2005. IPSN 2005. Fourth International Symposium on},
  date      = {2005-04},
  doi       = {10.1109/IPSN.2005.1440940},
  keywords  = {code division multiple access;frequency division multiple access;interference suppression;synchronisation;telecommunication traffic;time division multiple access;wireless sensor networks;CDMA;FDMA;MAC;SRSA;TDMA;adaptive slot allocation;code division multiple access;frequency division multiple access;global synchronization mechanism;interference prevention;medium access control;monitoring application;multicluster network;narrow-band operation;network traffic;reorganization protocol;self-reorganizing slot allocation mechanism;time division multiple access;wireless sensor network;Access protocols;Condition monitoring;Delay;Frequency division multiaccess;Interference;Media Access Protocol;Multiaccess communication;Sensor phenomena and characterization;Time division multiple access;Wireless sensor networks},
  pages     = {309--316},
  title     = {A self-reorganizing slot allocation protocol for multi-cluster sensor networks},
}

@inproceedings{rmac2007a,
  author    = {Yessad, S. and Nai't-Abdesselam, F. and Taleb, T. and Bensaou, B.},
  booktitle = {Local Computer Networks, 2007. LCN 2007. 32nd IEEE Conference on},
  date      = {2007-10},
  doi       = {10.1109/LCN.2007.159},
  issn      = {0742-1303},
  keywords  = {access protocols;wireless sensor networks;protocol;reservation medium access control;wireless sensor networks;Access protocols;Biosensors;Communication system control;Energy consumption;Media Access Protocol;Monitoring;Network topology;Sensor phenomena and characterization;Wireless application protocol;Wireless sensor networks},
  pages     = {719--724},
  title     = {R-MAC: Reservation Medium Access Control Protocol for Wireless Sensor Networks},
}

@inproceedings{asmac2008,
  author    = {Jang, Beakcheol and Lim, Jun Bum and Sichitiu, M.L.},
  booktitle = {Mobile Ad Hoc and Sensor Systems, 2008. MASS 2008. 5th IEEE International Conference on},
  date      = {2008-09},
  doi       = {10.1109/MAHSS.2008.4660032},
  keywords  = {access protocols;delays;wireless sensor networks;MicaZ platform;asynchronous scheduled MAC protocol;delay;energy consumption;energy efficiency;medium access control protocol;packet loss;preamble-sampling based MAC protocol;wireless sensor network;Collision avoidance;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Sampling methods;Sleep;Synchronization;Wireless application protocol;Wireless sensor networks},
  pages     = {434--441},
  title     = {AS-MAC: An asynchronous scheduled MAC protocol for wireless sensor networks},
}

@article{asmac2010,
  author       = {Zhao, Y.Z. and Ma, M. and Miao, C.Y. and Nguyen, T.N.},
  url          = {http://www.sciencedirect.com/science/article/pii/S0140366410001465},
  date         = {2010},
  doi          = {10.1016/j.comcom.2010.03.025},
  issn         = {0140-3664},
  journaltitle = {Computer Communications},
  keywords     = {Latency},
  number       = {12},
  pages        = {1452--1461},
  title        = {An energy-efficient and low-latency \{MAC\} protocol with Adaptive Scheduling for multi-hop wireless sensor networks},
  volume       = {33},
}

@inproceedings{sparemac,
  author    = {Campelli, L. and Capone, A. and Cesana, M. and Ekici, E.},
  booktitle = {Mobile Adhoc and Sensor Systems, 2007. MASS 2007. IEEE International Conference on},
  date      = {2007-10},
  doi       = {10.1109/MOBHOC.2007.4428626},
  keywords  = {scheduling;telecommunication traffic;time division multiple access;wireless sensor networks;MAC;SPARE MAC;TDMA;data delivery delay;medium access control;power consumption;radio resources;receiver oriented MAC protocol;reception schedules;traffic overhearing;wireless sensor networks;Access protocols;Analytical models;Communication system traffic control;Media Access Protocol;Performance analysis;Receivers;Throughput;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {1--10},
  title     = {A Receiver Oriented MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{tdmaw,
  author    = {Chen, Zhihui and Khokhar, A.},
  booktitle = {Sensor and Ad Hoc Communications and Networks, 2004. IEEE SECON 2004. 2004 First Annual IEEE Communications Society Conference on},
  date      = {2004-10},
  doi       = {10.1109/SAHCN.2004.1381934},
  keywords  = {access protocols;telecommunication channels;telecommunication control;telecommunication traffic;time division multiple access;wireless sensor networks;TDMA MAC protocol;channel access control;energy efficient self-organization;medium access control;one-hop traffic;time division multiple access;wake-up packet;wireless sensor network;Access protocols;Batteries;Energy efficiency;Intelligent sensors;Media Access Protocol;Telecommunication traffic;Time division multiple access;Transmitters;Wireless application protocol;Wireless sensor networks},
  pages     = {335--341},
  title     = {Self organization and energy efficient TDMA MAC protocol by wake up for wireless sensor networks},
}

@article{stdma,
  author       = {Nelson, R. and Kleinrock, L.},
  date         = {1985-09},
  doi          = {10.1109/TCOM.1985.1096405},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {TDMA (time-division multiple-access);Time-division multiple-access;Access protocols;Cost function;Disruption tolerant networking;Joining processes;Packet radio networks;Radio broadcasting;Switches;Telecommunication traffic;Time division multiple access;Wire},
  number       = {9},
  pages        = {934--944},
  title        = {Spatial TDMA: A Collision-Free Multihop Channel Access Protocol},
  volume       = {33},
}

@inproceedings{demac,
  author    = {Ramaraju Kalidindi, Lydia Ray and Kannan, Rajgopal and Iyengar, Sitharama},
  booktitle = {proc of International Conference on Wireless Network},
  date      = {2003},
  title     = {Distributed energy aware MAC layer protocol for wireless sensor networks},
}

@inproceedings{saxena2008,
  author    = {Saxena, Navrati and Roy, Abhishek and Shin, Jitae},
  booktitle = {Vehicular Technology Conference, 2008. VTC Spring 2008. IEEE},
  date      = {2008-05},
  doi       = {10.1109/VETECS.2008.50},
  issn      = {1550-2252},
  keywords  = {access protocols;multimedia communication;quality of service;wireless sensor networks;QoS-based energy-aware MAC protocol;energy consumption;wireless multimedia sensor networks;Analytical models;Bandwidth;Media Access Protocol;Monitoring;Performance analysis;Telecommunication traffic;Telemedicine;Video surveillance;Wireless application protocol;Wireless sensor networks},
  pages     = {183--187},
  title     = {A QoS-Based Energy-Aware MAC Protocol for Wireless Multimedia Sensor Networks},
}

@inproceedings{omac2007,
  author    = {Nait-Abdesselam, F. and Bensaou, B. and Soete, T. and Hung, Ka-Lok},
  booktitle = {Communications, 2007. ICC '07. IEEE International Conference on},
  date      = {2007-06},
  doi       = {10.1109/ICC.2007.601},
  keywords  = {access protocols;wireless sensor networks;IEEE 802.11 protocol;energy-aware MAC protocol;power sleep mode;wireless sensor networks;Access protocols;Biosensors;Media Access Protocol;Military computing;Monitoring;Peer to peer computing;Scheduling;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {3648--3653},
  title     = {O-MAC: An Organized Energy-Aware MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{rtmac2009,
  author    = {Singh, B.K. and Tepe, K.E.},
  booktitle = {Global Telecommunications Conference, 2009. GLOBECOM 2009. IEEE},
  date      = {2009-11},
  doi       = {10.1109/GLOCOM.2009.5425620},
  issn      = {1930-529X},
  keywords  = {access protocols;feedback;real-time systems;wireless sensor networks;MAC layer protocol;clear channel;data packet transmission;feedback based real-time MAC protocol;feedback control packet;media access control protocols;multi-stream non-interfering communication;real-time data streaming;sink node pair;spatial channel reuse;wireless MAC protocols;wireless medium;wireless sensor networks;Application software;Data communication;Delay;Feedback;Hardware;Media Access Protocol;Monitoring;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {1--6},
  title     = {Feedback Based Real-Time MAC (RT-MAC) Protocol for Wireless Sensor Networks},
}

@inproceedings{seamac,
  author    = {Erazo, M.A. and Qian, Yi},
  booktitle = {Wireless Pervasive Computing, 2007. ISWPC '07. 2nd International Symposium on},
  date      = {2007-02},
  doi       = {10.1109/ISWPC.2007.342611},
  keywords  = {access protocols;environmental management;monitoring;synchronisation;wireless sensor networks;SEA-MAC protocol;environmental monitoring applications;mica2 motes;wireless sensor networks;Access protocols;Application software;Base stations;Communication system traffic control;Computerized monitoring;Delay;Energy consumption;Media Access Protocol;Wireless application protocol;Wireless sensor networks},
  title     = {SEA-MAC: A Simple Energy Aware MAC Protocol for Wireless Sensor Networks for Environmental Monitoring Applications},
}

@inproceedings{etmac,
  author    = {Aghdasi, H.S. and Abbaspour, M.},
  booktitle = {Communication Networks and Services Research Conference, 2008. CNSR 2008. 6th Annual},
  date      = {2008-05},
  doi       = {10.1109/CNSR.2008.18},
  keywords  = {access protocols;telecommunication signalling;telecommunication traffic;wireless sensor networks;ET-MAC;MAC protocol;dynamic traffic load;energy consumption;sensor nodes;wireless sensor networks;Collision avoidance;Communication system control;Delay;Energy efficiency;Energy measurement;Media Access Protocol;Road accidents;Throughput;Wireless application protocol;Wireless sensor networks;Dynamic traffic load;Energy efficiency;MAC protocols;Throughput;Wireless sensor networks},
  pages     = {526--532},
  title     = {ET-MAC: An Energy-Efficient and High Throughput MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{tapdcmac,
  author    = {Vahabi, M. and Rasid, M.F.A. and Hossein Fotouhi G., M. and Abdullah, R.S.A.R.},
  booktitle = {Information Technology, 2008. ITSim 2008. International Symposium on},
  date      = {2008-08},
  doi       = {10.1109/ITSIM.2008.4631921},
  keywords  = {Access protocols;Communication system traffic control;Energy consumption;Media Access Protocol;Monitoring;Sampling methods;Telecommunication traffic;Traffic control;Wireless application protocol;Wireless sensor networks},
  pages     = {1--8},
  title     = {Adaptive MAC protocol for wireless sensor networks in periodic data collection applications},
  volume    = {4},
}

@inproceedings{eemac,
  author    = {Nguyen-Xuan, Sam and Oh, Semin and Sunshin, An},
  booktitle = {Advanced Communication Technology (ICACT), 2014 16th International Conference on},
  date      = {2014-02},
  doi       = {10.1109/ICACT.2014.6779052},
  keywords  = {access protocols;data communication;energy conservation;surveillance;telecommunication network topology;wireless sensor networks;D-MAC;EE-MAC;S-MAC;border surveillance wireless sensor networks;collision avoidance;data dissemination;delay wakeup algorithm;energy efficiency;energy efficient-medium access control;energy saving algorithms;packet delivery ratio;packet delivery ration;periodic applications;virtual cluster;wake-up algorithm;Energy consumption;Energy efficiency;Media Access Protocol;Schedules;Synchronization;Topology;Wireless sensor networks;border surveillance wireless sensor networks (BSWSNs);energy efficiency (EE);medium access control (MAC);packet delivery ratio (PDR)},
  pages     = {693--697},
  title     = {EE-MAC: Energy efficient-medium access control for periodic applications in border surveillance wireless sensor networks},
}

@article{uwanmac,
  author       = {Park, Min Kyoun and Rodoplu, V.},
  date         = {2007-07},
  doi          = {10.1109/JOE.2007.899277},
  issn         = {0364-9059},
  journaltitle = {Oceanic Engineering, IEEE Journal of},
  keywords     = {access protocols;telecommunication congestion control;underwater acoustic communication;wireless sensor networks;bandwidth utilization;collision avoidance;energy-efficient MAC protocol;energy-efficient media access control protocol;sensor network scenario;underwater acoustic medium;underwater acoustic wireless sensor networks;underwater ecological sensor networks;wireless LAN;Access protocols;Acoustic sensors;Collision avoidance;Energy efficiency;Media Access Protocol;Propagation delay;Underwater acoustics;Wireless LAN;Wireless application protocol;Wireless sensor networks;Energy;media access control (MAC);protocol;sensor;underwater acoustic;wireless},
  number       = {3},
  pages        = {710--720},
  title        = {UWAN-MAC: An Energy-Efficient MAC Protocol for Underwater Acoustic Wireless Sensor Networks},
  volume       = {32},
}

@inproceedings{rmac2007c,
  author    = {Xie, Peng and Cui, Jun-Hong},
  booktitle = {Wireless Algorithms, Systems and Applications, 2007. WASA 2007. International Conference on},
  date      = {2007-08},
  doi       = {10.1109/WASA.2007.37},
  keywords  = {access protocols;scheduling;telecommunication congestion control;telecommunication terminals;underwater acoustic communication;wireless sensor networks;acoustic channels;data packet collision avoidance;delay propagation;energy-efficient MAC protocol;scheduling algorithms;terminal problem;underwater sensor networks;Access protocols;Acoustic sensors;Collision avoidance;Energy efficiency;Media Access Protocol;Propagation delay;Sensor systems and applications;Underwater acoustics;Underwater communication;Wireless sensor networks},
  pages     = {187--198},
  title     = {R-MAC: An Energy-Efficient MAC Protocol for Underwater Sensor Networks},
}

@inproceedings{mmac2005,
  author    = {Ali, M. and Suleman, T. and Uzmi, Z.A.},
  booktitle = {Performance, Computing, and Communications Conference, 2005. IPCCC 2005. 24th IEEE International},
  date      = {2005-04},
  doi       = {10.1109/PCCC.2005.1460597},
  issn      = {1097-2641},
  keywords  = {access protocols;mobile radio;scheduling;telecommunication congestion control;telecommunication traffic;wireless sensor networks;MMAC;collision avoidance;medium access control;mobility-adaptive collision-free MAC protocol;scheduling-based protocol;traffic information;wireless mobile sensor network;Access protocols;Bandwidth;Computer science;Energy efficiency;Media Access Protocol;Programmable control;Sensor phenomena and characterization;Traffic control;Wireless application protocol;Wireless sensor networks},
  pages     = {401--407},
  title     = {MMAC: a mobility-adaptive, collision-free MAC protocol for wireless sensor networks},
}

@inproceedings{peleato2006,
  author    = {Peleato, Borja and Stojanovic, Milica},
  location  = {Los Angeles, CA, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1161039.1161063},
  booktitle = {Proceedings of the 1st ACM International Workshop on Underwater Networks},
  date      = {2006},
  doi       = {10.1145/1161039.1161063},
  isbn      = {1-59593-484-7},
  keywords  = {ad-hoc networks,hand-shake,long propagation delays,medium access control (MAC),tolerance to interference,underwater acoustic networks},
  pages     = {113--115},
  series    = {WUWNet '06},
  title     = {A MAC Protocol for Ad-hoc Underwater Acoustic Sensor Networks},
}

@inproceedings{mcmac2006,
  author    = {Chen, Xun and Han, Peng},
  booktitle = {Computer and Information Technology, 2006. CIT '06. The Sixth IEEE International Conference on},
  date      = {2006-09},
  doi       = {10.1109/CIT.2006.14},
  keywords  = {Access protocols;Energy efficiency;Infrared sensors;Media Access Protocol;Nominations and elections;Throughput;Time division multiple access;Transceivers;Wireless application protocol;Wireless sensor networks;channel assignment;media access control;multi-channel;wireless sensor networks},
  pages     = {224--224},
  title     = {A Multi-Channel MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{teem,
  author    = {Suh, Changsu and Ko, Young-Bae},
  booktitle = {Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium on},
  date      = {2005-05},
  doi       = {10.1109/ISCAS.2005.1465252},
  keywords  = {access protocols;wireless sensor networks;S-MAC protocol;TEEM;adaptive mode durations;energy efficient MAC protocol;listen/sleep mode cycle;mote sensors;node traffic information;smart sensors;traffic aware MAC protocol;wireless sensor networks;Access protocols;Energy consumption;Energy efficiency;Intelligent sensors;Media Access Protocol;Sensor phenomena and characterization;Sleep;Telecommunication traffic;Wireless application protocol;Wireless sensor networks},
  pages     = {2975--2978 Vol. 3},
  title     = {A traffic aware, energy efficient MAC protocol for wireless sensor networks},
}

@inproceedings{tdmaasap,
  author    = {Gobriel, S. and Mosse, D. and Cleric, R.},
  booktitle = {Distributed Computing Systems, 2009. ICDCS '09. 29th IEEE International Conference on},
  date      = {2009-06},
  doi       = {10.1109/ICDCS.2009.80},
  issn      = {1063-6927},
  keywords  = {access protocols;graph theory;scheduling;time division multiple access;wireless sensor networks;MAC protocol;TDMA-ASAP scheduling;WSN;adaptive slot-stealing-and-parallelism;energy consumption;intelligent scheduling;level-by-level localized graph-coloring;message aggregation;ordering transmission;transmission parallelism;wireless sensor network;Access protocols;Adaptive scheduling;Clocks;Delay;Energy consumption;Media Access Protocol;Parallel processing;Synchronization;Time division multiple access;Wireless sensor networks;MAC;TDMA;WSN;sensor networks;sensors},
  pages     = {458--465},
  title     = {TDMA-ASAP: Sensor Network TDMA Scheduling with Adaptive Slot-Stealing and Parallelism},
}

@inproceedings{tfmac,
  author    = {Jovanovic, M.D. and Djordjevic, G.L.},
  booktitle = {Telecommunications in Modern Satellite, Cable and Broadcasting Services, 2007. TELSIKS 2007. 8th International Conference on},
  date      = {2007-09},
  doi       = {10.1109/TELSKS.2007.4375929},
  keywords  = {access protocols;time division multiple access;transceivers;wireless sensor networks;TDMA scheme;multichannel MAC protocol;packet delay;single half-duplex transceiver;wireless sensor network;Access protocols;Energy efficiency;Media Access Protocol;Space technology;Switches;Throughput;Time division multiple access;Transceivers;Wireless application protocol;Wireless sensor networks;Medium Access Control;Time Division Multiple Access;Wireless Sensor Networks;energy efficiency},
  pages     = {23--26},
  title     = {TFMAC: Multi-channel MAC Protocol for Wireless Sensor Networks},
}

@article{breath,
  author       = {Park, Pangun and Fischione, C. and Bonivento, A. and Johansson, K.H. and Sangiovanni-Vincent, A.},
  date         = {2011-06},
  doi          = {10.1109/TMC.2010.223},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;industrial control;telecommunication network reliability;telecommunication network routing;telecommunication traffic;wireless sensor networks;adaptive protocol;channel conditions;constrained optimization problem;cross-layer interaction;delay probabilities;duty-cycling;energy consumption;energy efficiency;in-network processing;industrial control applications;medium access control;multihop routing;off-the-shelf wireless sensor nodes;packet delay;packet delivery;packet reliability;protocol Breath;protocol stack;randomized routing;resource-constrained nodes;standard IEEE 802.15.4 solution;timely data transmission;traffic variations;wireless sensor networks;Delay;Energy consumption;Protocols;Reliability engineering;Routing;Wireless sensor networks;Wireless sensor networks;control over multihop WSNs;cross-layer design;duty cycle;optimization.},
  number       = {6},
  pages        = {821--838},
  title        = {Breath: An Adaptive Protocol for Industrial Control Applications Using Wireless Sensor Networks},
  volume       = {10},
}

@inproceedings{cmac2006,
  author    = {Chowdhury, K.R. and Nandiraju, N. and Cavalcanti, D. and Agrawal, D.P.},
  booktitle = {Wireless Communications and Networking Conference, 2006. WCNC 2006. IEEE},
  date      = {2006-04},
  doi       = {10.1109/WCNC.2006.1683636},
  issn      = {1525-3511},
  keywords  = {access protocols;channel allocation;transceivers;wireless channels;wireless sensor networks;CMAC;collision free communication;control message exchange mechanism;dual radio wake-up schemes;end-to-end delay;half-duplex transceiver;multichannel energy efficient MAC;spatial channel re-use;wireless sensor networks;Communication system control;Deafness;Delay;Energy efficiency;Hardware;Media Access Protocol;Radio control;Tin;Transceivers;Wireless sensor networks},
  pages     = {1172--1177},
  title     = {CMAC - A multi-channel energy efficient MAC for wireless sensor networks},
  volume    = {2},
}

@article{rlmac2006b,
  abstract     = {This paper introduces RL-MAC, a novel adaptive Media Access Control (MAC) protocol for Wireless Sensor Networks (WSN) that employs a reinforcement learning framework. Existing schemes centre around scheduling the nodes' sleep and active periods as means of minimising the energy consumption. Recent protocols employ adaptive duty cycles as means of further optimising the energy utilisation. However, in most cases each node determines the duty cycle as a function of its own traffic load. In this paper, nodes actively infer the state of other nodes, using a reinforcement learning based control mechanism, thereby achieving high thoughput and low power consumption for a wide range of traffic conditions. Moreover, the computational complexity of the proposed scheme is moderate rendering it pragmatic for practical deployments.},
  author       = {Liu, Zhenzhen and Elhanany, Itamar},
  url          = {http://www.inderscienceonline.com/doi/abs/10.1504/IJSNET.2006.012027},
  date         = {2006},
  doi          = {10.1504/IJSNET.2006.012027},
  eprint       = {http://www.inderscienceonline.com/doi/pdf/10.1504/IJSNET.2006.012027},
  journaltitle = {International Journal of Sensor Networks},
  number       = {3-4},
  pages        = {117--124},
  title        = {RL-MAC: a reinforcement learning based MAC protocol for wireless sensor networks},
  volume       = {1},
}

@inproceedings{pqmac,
  author    = {Kim, Hoon and Min, Sung-Gi},
  booktitle = {Parallel Distributed Processing, 2009. IPDPS 2009. IEEE International Symposium on},
  date      = {2009-05},
  doi       = {10.1109/IPDPS.2009.5161184},
  issn      = {1530-2075},
  keywords  = {access protocols;quality of service;scheduling;telecommunication congestion control;telecommunication network management;telecommunication traffic;wireless sensor networks;MAC protocol;PQMAC protocol;QoS;energy efficiency;media access control;network traffic control;quality-of-service;scheduling;wireless sensor networks;Access protocols;Communication system traffic control;Data communication;Delay;Media Access Protocol;Protection;Quality of service;Sleep;Wireless application protocol;Wireless sensor networks},
  pages     = {1--8},
  title     = {Priority-based QoS MAC protocol for wireless sensor networks},
}

@article{qmac2010,
  author       = {Chao, Chih-Min and Lee, Yi-Wei},
  date         = {2010-02},
  doi          = {10.1109/TVT.2009.2034970},
  issn         = {0018-9545},
  journaltitle = {Vehicular Technology, IEEE Transactions on},
  keywords     = {access protocols;data communication;telecommunication traffic;wireless sensor networks;battery powered;environment surveillance;link breakage;power-saving protocols;quorum-based energy-saving MAC protocol design;quorum-based medium access control protocol;sleep/awake mechanism;traffic load;transmission delays;transmission latency;wireless sensor networks;wireless sensor nodes;Access schemes;data communications;powersaving protocol;wireless communications;wireless sensor networks (WSNs)},
  number       = {2},
  pages        = {813--822},
  title        = {A Quorum-Based Energy-Saving MAC Protocol Design for Wireless Sensor Networks},
  volume       = {59},
}

@article{cmac2010,
  author       = {Yahya, B. and Ben-Othman, J.},
  publisher    = {John Wiley & Sons, Ltd.},
  url          = {http://dx.doi.org/10.1002/cpe.1579},
  date         = {2010},
  doi          = {10.1002/cpe.1579},
  issn         = {1532-0634},
  journaltitle = {Concurrency and Computation: Practice and Experience},
  keywords     = {energy efficient MAC,QoS,wireless sensor networks},
  number       = {10},
  pages        = {1252--1266},
  title        = {Energy efficient and QoS aware medium access control for wireless sensor networks},
  volume       = {22},
}

@inproceedings{commac,
  author    = {Li, Cheng and Wang, Pu and Chen, Hsiao-Hwa and Guizani, M.},
  booktitle = {Communications, 2008. ICC '08. IEEE International Conference on},
  date      = {2008-05},
  doi       = {10.1109/ICC.2008.451},
  keywords  = {access protocols;automatic repeat request;channel allocation;data communication;multimedia communication;quality of service;scheduling;telecommunication network reliability;telecommunication traffic;video streaming;wireless sensor networks;workstation clusters;QoS-aware scheduling algorithm;audio streaming;channel allocation;clustered on-demand multichannel MAC protocol;data traffic information;data transmission;energy-constrained devices;multichannel medium access;network bandwidth;scheduling session;spectrum-aware ARQ;traffic-adaptive scheduling algorithm;transmission reliability;video streaming;wireless multimedia sensor networks;wireless sensor networks;Access protocols;Data communication;Energy efficiency;Image sensors;Information retrieval;Media Access Protocol;Streaming media;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {2371--2376},
  title     = {A Cluster Based On-demand Multi-Channel MAC Protocol for Wireless Multimedia Sensor Networks},
}

@article{dgram,
  author       = {Shanti, C. and Sahoo, A.},
  date         = {2010-10},
  doi          = {10.1109/TMC.2010.107},
  issn         = {1536-1233},
  journaltitle = {Mobile Computing, IEEE Transactions on},
  keywords     = {access protocols;routing protocols;wireless sensor networks;MAC protocol;delay analysis;delay guaranteed routing;deterministic delay guarantee;energy-efficient manner;routing protocol;time slot assignment;wireless sensor networks;Access protocols;Analytical models;Delay effects;Energy efficiency;Media Access Protocol;Routing protocols;Sleep;Time division multiple access;Wireless application protocol;Wireless sensor networks;MAC;TDMA.;WSNs;delay guarantee;energy efficiency},
  number       = {10},
  pages        = {1407--1423},
  title        = {DGRAM: A Delay Guaranteed Routing and MAC Protocol for Wireless Sensor Networks},
  volume       = {9},
}

@inproceedings{rtmac2007,
  author    = {Sahoo, A. and Baronia, P.},
  booktitle = {Local Metropolitan Area Networks, 2007. LANMAN 2007. 15th IEEE Workshop on},
  date      = {2007-06},
  doi       = {10.1109/LANMAN.2007.4295970},
  keywords  = {access protocols;delays;time division multiple access;wireless sensor networks;RTMAC protocol;TDMA protocol;delay guarantee;energy efficient MAC;time slot assignment;wireless sensor networks;Access protocols;Delay effects;Earthquakes;Energy efficiency;Information technology;Media Access Protocol;Patient monitoring;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {25--30},
  title     = {An Energy Efficient MAC in Wireless Sensor Networks to Provide Delay Guarantee},
}

@inproceedings{odmac,
  author    = {Fafoutis, Xenofon and Dragoni, Nicola},
  location  = {Miami, Florida, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/2069063.2069072},
  booktitle = {Proceedings of the 8th ACM Symposium on Performance Evaluation of Wireless Ad Hoc, Sensor, and Ubiquitous Networks},
  date      = {2011},
  doi       = {10.1145/2069063.2069072},
  isbn      = {978-1-4503-0900-4},
  keywords  = {energy harvesting,energy harvesting - wireless sensor networks,mac,wireless sensor networks},
  pages     = {49--56},
  series    = {PE-WASUN '11},
  title     = {ODMAC: An On-demand MAC Protocol for Energy Harvesting - Wireless Sensor Networks},
}

@article{lwtmac,
  author       = {Cano, C. and Bellalta, B. and Sfairopoulou, A. and Barcelo, J.},
  date         = {2009-04},
  doi          = {10.1109/LCOMM.2009.081831},
  issn         = {1089-7798},
  journaltitle = {Communications Letters, IEEE},
  keywords     = {access protocols;wireless sensor networks;MAC protocol;WSN;low power listening MAC;lowpower listening;opportunistic scheduled wake up;unscheduled channel access;Access protocols;Costs;Delay;Energy consumption;Media Access Protocol;Scheduling;Telecommunication traffic;Throughput;Transceivers;Wireless sensor networks;WSN,low power listening,B-MAC.},
  number       = {4},
  pages        = {221--223},
  title        = {A low power listening MAC with scheduled wake up after transmissions for WSNs},
  volume       = {13},
}

@article{llmac,
  author       = {Marín, I. and Arias, J. and Arceredillo, E. and Zuloaga, A. and Losada, I. and Mabe, J.},
  url          = {http://www.sciencedirect.com/science/article/pii/S0141933107001238},
  date         = {2008},
  doi          = {10.1016/j.micpro.2007.10.003},
  issn         = {0141-9331},
  journaltitle = {Microprocessors and Microsystems},
  keywords     = {Low latency},
  number       = {4},
  pages        = {197--209},
  title        = {LL-MAC: A low latency \{MAC\} protocol for wireless self-organised networks},
  volume       = {32},
}

@inproceedings{amac2007,
  author    = {Lee, Sang Hoon and Park, Joon Ho and Choi, L.},
  booktitle = {Communications, 2007. ICC '07. IEEE International Conference on},
  date      = {2007-06},
  doi       = {10.1109/ICC.2007.540},
  keywords  = {access protocols;telecommunication power supplies;telecommunication traffic;wireless sensor networks;average energy consumption;battery-powered sensor devices;burst traffic patterns;energy saving;media access control protocol;traffic-adaptive sensor network MAC protocol;variable duty-cycle operations;Access protocols;Communication system traffic control;Computer networks;Delay;Energy consumption;Media Access Protocol;Peer to peer computing;Sleep;Telecommunication traffic;Wireless sensor networks},
  pages     = {3259--3264},
  title     = {AMAC: Traffic-Adaptive Sensor Network MAC Protocol through Variable Duty-Cycle Operations},
}

@article{mmac2006,
  abstract     = {Mobility in wireless sensor networks poses unique challenges to the Medium Access Control (MAC) protocol design. Previous MAC protocols for sensor networks assume static sensor nodes and focus on energy-efficiency. In this paper, we present MMAC, a mobility-adaptive, collision-free MAC protocol for mobile sensor networks. MMAC caters for both weak mobility (e.g. topology changes, node joins and node failures) and strong mobility (e.g. concurrent node joins and failures, and physical mobility of nodes). When using MMAC, nodes are allowed to transmit at particular time-slots, based on the traffic information and mobility pattern of the nodes. Allowing transmission at particular time-slots makes MMAC a scheduling-based protocol, thereby guaranteeing collision avoidance. Simulation results indicate that the performance of MMAC is equivalent to that of TRAMA in static sensor network environments. In sensor networks with mobile nodes or high network dynamics, MMAC outperforms existing MAC protocols, including TRAMA and S-MAC, in terms of energy-efficiency, delay and packet delivery.},
  author       = {Ali, Muneeb and Uzmi, Zartash Afzal},
  url          = {http://www.inderscienceonline.com/doi/abs/10.1504/IJSNET.2006.012029},
  date         = {2006},
  doi          = {10.1504/IJSNET.2006.012029},
  eprint       = {http://www.inderscienceonline.com/doi/pdf/10.1504/IJSNET.2006.012029},
  journaltitle = {International Journal of Sensor Networks},
  number       = {3-4},
  pages        = {134--142},
  title        = {Medium access control with mobility-adaptive mechanisms for wireless sensor networks},
  volume       = {1},
}

@article{diffmac,
  author       = {Yigitel, M. Aykut and Incel, Ozlem Durmaz and Ersoy, Cem},
  url          = {http://www.sciencedirect.com/science/article/pii/S0140366411001927},
  date         = {2011},
  doi          = {10.1016/j.comcom.2011.06.006},
  issn         = {0140-3664},
  journaltitle = {Computer Communications},
  keywords     = {\{MAC\} protocols},
  number       = {16},
  pages        = {1991--2001},
  title        = {Design and implementation of a QoS-aware \{MAC\} protocol for Wireless Multimedia Sensor Networks},
  volume       = {34},
}

@article{areamac,
  abstract     = {Energy saving has been the primal issue in designing medium access control (MAC) protocols for wireless sensor networks (WSNs). However, with the advent of new micro electro-mechanical systems (MEMS) technologies and recently thermo-powered and solar-powered sensor nodes – where nodes operate virtually for an unlimited time period – the research community is set to experience many diverse directions in this area. Factors like timeliness, scalability, synchronisation, adaptivity and reliability will play their part in the near future. This paper discusses AREA-MAC, a MAC protocol specially designed for real-time and energy-efficient WSN applications. AREA-MAC reduces latency and energy consumption of nodes by using low power listening (LPL) technique with short preamble messages. Other protocols like B-MAC use long preamble messages that cause higher latency, energy consumption and control overhead. Moreover, AREA-MAC provides reasonable trade-offs between vital parameters such as system fairness, throughput, scalability and adaptability to traffic conditions. Additionally, to minimise network latency and to maximise its lifetime, two application-based optimisation problems are formulated. The analytical and simulation results show a better performance of AREA-MAC in terms of delay, energy-efficiency, throughput and overhearing over the protocols which use LPL with long preambles.},
  author       = {Kumar, Pardeep and Gunes, Mesut and Mushtaq, Qasim and Blywis, Bastian},
  url          = {http://www.inderscienceonline.com/doi/abs/10.1504/IJUWBCS.2009.029002},
  date         = {2009},
  doi          = {10.1504/IJUWBCS.2009.029002},
  eprint       = {http://www.inderscienceonline.com/doi/pdf/10.1504/IJUWBCS.2009.029002},
  journaltitle = {International Journal of Ultra Wideband Communications and Systems},
  number       = {2},
  pages        = {128--142},
  title        = {A real-time and energy-efficient MAC protocol for wireless sensor networks},
  volume       = {1},
}

@article{tcmac,
  author       = {Kim, Jaesub and Park, Kyu Ho},
  url          = {http://www.sciencedirect.com/science/article/pii/S1389128609000590},
  date         = {2009},
  doi          = {10.1016/j.comnet.2009.03.002},
  issn         = {1389-1286},
  journaltitle = {Computer Networks},
  keywords     = {Congestion control},
  number       = {11},
  pages        = {1879--1902},
  title        = {An energy-efficient, transport-controlled \{MAC\} protocol for wireless sensor networks},
  volume       = {53},
}

@article{mlmac2011,
  author       = {Jha, Manish Kumar and Pandey, Atul Kumar and Pal, Dipankar and Mohan, Anand},
  url          = {http://www.sciencedirect.com/science/article/pii/S1434841110000919},
  date         = {2011},
  doi          = {10.1016/j.aeue.2010.03.006},
  issn         = {1434-8411},
  journaltitle = {\{AEU\} - International Journal of Electronics and Communications},
  keywords     = {Wireless sensor networks (WSNs)},
  number       = {3},
  pages        = {209--216},
  title        = {An energy-efficient multi-layer \{MAC\} (ML-MAC) protocol for wireless sensor networks},
  volume       = {65},
}

@inproceedings{beam,
  author    = {Anwander, M. and Wagenknecht, G. and Braun, T. and Dolfus, K.},
  booktitle = {Networked Sensing Systems (INSS), 2010 Seventh International Conference on},
  date      = {2010-06},
  doi       = {10.1109/INSS.2010.5573142},
  keywords  = {access protocols;telecommunication network reliability;telecommunication traffic;transport protocols;wireless sensor networks;BEAM;IEEE 802.15.4;adaptive duty cycle mechanism;burst-aware energy-efficient adaptive MAC protocol;energy-efficient TCP-IP networking;hop-to-hop reliability;network lifetime;reliable transport mechanisms;traffic patterns;wireless sensor networks;Media Access Protocol;Wireless sensor networks;Energy conservation;radio communication;reliability;simulation},
  pages     = {195--202},
  title     = {BEAM: A Burst-aware Energy-efficient Adaptive MAC protocol for Wireless Sensor Networks},
}

@inproceedings{tdmawsn,
  author    = {gang Bai, Rong and gui Qu, Yu and Guo, Yang and hua Zhao, Bao},
  booktitle = {Asia-Pacific Service Computing Conference, The 2nd IEEE},
  date      = {2007-12},
  doi       = {10.1109/APSCC.2007.25},
  keywords  = {telecommunication network routing;time division multiple access;wireless sensor networks;accelerate passing message;collision-free medium access control protocol;energy-efficient TDMA MAC;routing information;three-d-hop neighborhood information;time division multiple access;wireless sensor networks;Acceleration;Access protocols;Energy consumption;Energy efficiency;Energy resolution;Media Access Protocol;Sleep;Time division multiple access;Wireless application protocol;Wireless sensor networks},
  pages     = {69--74},
  title     = {An Energy-Efficient TDMA MAC for Wireless Sensor Networks},
}

@article{cfma,
  author       = {Khan, BilalMuhammad and Ali, FalahH.},
  language     = {English},
  publisher    = {Springer US},
  url          = {http://dx.doi.org/10.1007/s11235-011-9566-5},
  date         = {2013},
  doi          = {10.1007/s11235-011-9566-5},
  issn         = {1018-4864},
  journaltitle = {Telecommunication Systems},
  keywords     = {Collision Free MAC; Mobility Adaptive MAC; Mobile wireless sensor},
  number       = {4},
  pages        = {2459--2474},
  title        = {Collision Free Mobility Adaptive (CFMA) MAC for wireless sensor networks},
  volume       = {52},
}

@article{xmachiavel,
  author       = {Kuntz, Romain and Montavont, Julien and Noël, Thomas},
  language     = {English},
  publisher    = {Springer US},
  url          = {http://dx.doi.org/10.1007/s11235-011-9565-6},
  date         = {2013},
  doi          = {10.1007/s11235-011-9565-6},
  issn         = {1018-4864},
  journaltitle = {Telecommunication Systems},
  keywords     = {Wireless Sensor Networks; Medium Access Control; Mobility; X-MAC; X-Machiavel},
  number       = {4},
  pages        = {2437--2458},
  title        = {Improving the medium access in highly mobile Wireless Sensor Networks},
  volume       = {52},
}

@inproceedings{boxmac,
  author    = {Kuntz, R. and Gallais, A. and Noel, T.},
  booktitle = {Wireless Communications and Networking Conference (WCNC), 2011 IEEE},
  date      = {2011-03},
  doi       = {10.1109/WCNC.2011.5779166},
  issn      = {1525-3511},
  keywords  = {access protocols;wireless sensor networks;X-MAC;antagonist traffic pattern;autoadaptive MAC;autoadaptive algorithm;energy efficient burst transmission;energy savings;medium access control;versatile preamble sampling MAC protocol;wireless sensor networks;Data models;Delay;Protocols;Receivers;Routing;Sensors;Wireless sensor networks},
  pages     = {233--238},
  title     = {Auto-adaptive MAC for energy-efficient burst transmissions in wireless sensor networks},
}

@article{ubmac,
  author       = {Ganeriwal, Saurabh and Tsigkogiannis, Ilias and Shim, Hohyun and Tsiatsis, Vlassios and Srivastava, Mani B. and Ganesan, Deepak},
  location     = {Piscataway, NJ, USA},
  publisher    = {IEEE Press},
  url          = {http://dx.doi.org/10.1109/TNET.2008.2001953},
  date         = {2009-06},
  doi          = {10.1109/TNET.2008.2001953},
  issn         = {1063-6692},
  journaltitle = {IEEE/ACM Trans. Netw.},
  keywords     = {medium access control,time synchronization,wireless sensor networks},
  number       = {3},
  pages        = {843--856},
  title        = {Estimating Clock Uncertainty for Efficient Duty-cycling in Sensor Networks},
  volume       = {17},
}

@incollection{maxmac,
  author    = {Hurni, Philipp and Braun, Torsten},
  editor    = {Silva, JorgeSá and Krishnamachari, Bhaskar and Boavida, Fernando},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-642-11917-0_19},
  booktitle = {Wireless Sensor Networks},
  date      = {2010},
  doi       = {10.1007/978-3-642-11917-0_19},
  isbn      = {978-3-642-11916-3},
  keywords  = {Wireless Sensor Networks; Energy Efficient Medium Access Control; Traffic Adaptivity},
  pages     = {289--305},
  series    = {Lecture Notes in Computer Science},
  title     = {MaxMAC: A Maximally Traffic-Adaptive MAC Protocol for Wireless Sensor Networks},
  volume    = {5970},
}

@inproceedings{adca,
  author    = {Chang, Yu-Chia and Jiang, Jehn-Ruey and Sheu, Jang-Ping and Shih, Hsin-Yi},
  booktitle = {Global Telecommunications Conference, 2008. IEEE GLOBECOM 2008. IEEE},
  date      = {2008-11},
  doi       = {10.1109/GLOCOM.2008.ECP.81},
  issn      = {1930-529X},
  keywords  = {access protocols;scheduling;wireless sensor networks;ADCA protocol;MAC protocol;WSN;asynchronous duty cycle adjustment;duty cycle length;media access;network throughput;power consumption;sleep-wakeup schedule-based protocol;transmission delay;wireless sensor networks;Access protocols;Acoustic sensors;Delay;Energy consumption;Media Access Protocol;Scheduling;Sleep;Throughput;Wireless application protocol;Wireless sensor networks},
  pages     = {1--5},
  title     = {ADCA: An Asynchronous Duty Cycle Adjustment MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{hesmac,
  author    = {Rashwand, S. and Misic, J. and Misic, V. and Biswas, S. and Haque, M.M.},
  booktitle = {Distributed Computing Systems Workshops, 2009. ICDCS Workshops '09. 29th IEEE International Conference on},
  date      = {2009-06},
  doi       = {10.1109/ICDCSW.2009.75},
  issn      = {1545-0678},
  keywords  = {access protocols;energy conservation;wireless LAN;wireless sensor networks;RTS-CTS IEEE 802.11;battery-operated computing;energy efficiency;low transmission delay MAC protocol;transmission latency;wireless sensor networks;Access protocols;Batteries;Computer networks;Delay;Energy consumption;Energy efficiency;Event detection;Media Access Protocol;Wireless application protocol;Wireless sensor networks;MAC protocol;energy efficiency;wireless sensor networks},
  pages     = {186--193},
  title     = {A Novel Asynchronous, Energy Efficient, Low Transmission Delay MAC Protocol for Wireless Sensor Networks},
}

@incollection{gragopoulos2007,
  author    = {Gragopoulos, Ioannis and Tsetsinas, Ioannis and Karapistoli, Eirini and Paulidou, Fotini-Niovi},
  editor    = {Labiod, Houda and Badra, Mohamad},
  language  = {English},
  publisher = {Springer Netherlands},
  url       = {http://dx.doi.org/10.1007/978-1-4020-6270-4_4},
  booktitle = {New Technologies, Mobility and Security},
  date      = {2007},
  doi       = {10.1007/978-1-4020-6270-4_4},
  isbn      = {978-1-4020-6269-8},
  keywords  = {Wireless Sensor Networks; MAC protocol; energy efficiency},
  pages     = {39--51},
  title     = {Performance Study of a New MAC Algorithm to Reduce Energy and Delay in Wireless Sensor Networks},
}

@inproceedings{obmac,
  author    = {Le, Hung-Cuong and Guyennet, H. and Felea, V.},
  booktitle = {Sensor Technologies and Applications, 2007. SensorComm 2007. International Conference on},
  date      = {2007-10},
  doi       = {10.1109/SENSORCOMM.2007.4394977},
  keywords  = {access protocols;personal area networks;telecommunication network reliability;wireless sensor networks;IEEE 802.15.4;MAC protocol;OBMAC;medium access control protocol;wireless sensor networks;Access protocols;Batteries;Capacitive sensors;Energy consumption;Fires;Media Access Protocol;Switches;Temperature sensors;Wireless application protocol;Wireless sensor networks},
  pages     = {547--553},
  title     = {OBMAC: An Overhearing Based MAC Protocol for Wireless Sensor Networks},
}

@inproceedings{asmac2007,
  author    = {Bing, Liu and Lin, Zhang and Huimin, Zhang},
  booktitle = {Networking, 2007. ICN '07. Sixth International Conference on},
  date      = {2007-04},
  doi       = {10.1109/ICN.2007.21},
  keywords  = {carrier sense multiple access;scheduling;wireless sensor networks;CSMA-MPS;MAC protocol;adaptive schedule medium access control;carrier sense multiple access;data traffic;listen/sleep cycle;minimum preamble sampling;network performance;sensor MAC protocol;wireless sensor networks;Adaptive control;Adaptive scheduling;Delay;Energy efficiency;Media Access Protocol;Programmable control;Throughput;Traffic control;Wireless application protocol;Wireless sensor networks;Media Access Control (MAC);Wireless Sensor Networks (WSNs);adaptation},
  pages     = {12--12},
  title     = {An Adaptive Schedule Medium Access Control for Wireless Sensor Networks},
}

@inproceedings{lmac2007,
  author    = {Wang, Lening and Liu, Kai},
  booktitle = {Wireless Communications, Networking and Mobile Computing, 2007. WiCom 2007. International Conference on},
  date      = {2007-09},
  doi       = {10.1109/WICOM.2007.608},
  keywords  = {access protocols;telecommunication traffic;wireless sensor networks;adaptive sleeping scheme;low-latency medium access control protocol;wireless sensor networks;Access protocols;Batteries;Delay;Energy consumption;Energy efficiency;Frequency division multiaccess;Media Access Protocol;Telecommunication traffic;Wireless application protocol;Wireless sensor networks},
  pages     = {2440--2443},
  title     = {An Adaptive Energy-Efficient and Low-Latency Mac Protocol for Wireless Sensor Networks},
}

@inproceedings{wmac,
  author    = {Pak, Wooguil and Cho, Kyong-Tak and Lee, Jeongjoon and Bahk, Saewoong},
  booktitle = {Global Telecommunications Conference, 2008. IEEE GLOBECOM 2008. IEEE},
  date      = {2008-11},
  doi       = {10.1109/GLOCOM.2008.ECP.79},
  issn      = {1930-529X},
  keywords  = {access protocols;broadband networks;wireless sensor networks;W-MAC protocol;clock speed;energy consumption;ultra low duty cycle;wideband-multiple access control protocol;wireless sensor network;Access protocols;Clocks;Crystals;Energy consumption;Media Access Protocol;Monitoring;Oscillators;Synchronization;Wireless application protocol;Wireless sensor networks},
  pages     = {1--5},
  title     = {W-MAC: Supporting Ultra Low Duty Cycle in Wireless Sensor Networks},
}

@article{mrpm,
  author       = {Sthapit, Pranesh and Pyun, Jae-Young},
  language     = {English},
  publisher    = {Springer US},
  url          = {http://dx.doi.org/10.1007/s11235-011-9551-z},
  date         = {2013},
  doi          = {10.1007/s11235-011-9551-z},
  issn         = {1018-4864},
  journaltitle = {Telecommunication Systems},
  keywords     = {Energy efficiency; Low latency; Contention window; MAC; WSN},
  number       = {4},
  pages        = {2387--2395},
  title        = {Medium reservation based sensor MAC protocol for low latency and high energy efficiency},
  volume       = {52},
}

@inproceedings{mdsmac,
  author    = {Hameed, S.A. and Shaaban, E.M. and Faheem, H.M. and Ghoniemy, M.S.},
  booktitle = {Ultra Modern Telecommunications Workshops, 2009. ICUMT '09. International Conference on},
  date      = {2009-10},
  doi       = {10.1109/ICUMT.2009.5345591},
  keywords  = {access protocols;wireless sensor networks;MD-SMAC;WSN MAC protocol;delay reduction;delay-sensitive wireless sensor networks;mobile sensor networks;mobility handling;mobility-aware MAC protocol;Access protocols;Computer networks;Delay;Energy consumption;Energy efficiency;Media Access Protocol;Sensor systems;Transceivers;Wireless application protocol;Wireless sensor networks;Wireless sensor networks;delay-reduction;energy-efficiency;medium access control;mobility-handling;simulation},
  pages     = {1--8},
  title     = {Mobility-aware MAC protocol for delay-sensitive wireless sensor networks},
}

@incollection{prmac,
  author    = {Chen, Jianrong and Zhu, Peidong and Qi, Zhichang},
  editor    = {Lee, Yann-Hang and Kim, Heung-Nam and Kim, Jong and Park, Yongwan and Yang, LaurenceT. and Kim, SungWon},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/978-3-540-72685-2_49},
  booktitle = {Embedded Software and Systems},
  date      = {2007},
  doi       = {10.1007/978-3-540-72685-2_49},
  isbn      = {978-3-540-72684-5},
  keywords  = {Sensor network; real time; MAC; schedule; channel},
  pages     = {530--539},
  series    = {Lecture Notes in Computer Science},
  title     = {PR-MAC: Path-Oriented Real-Time MAC Protocol for Wireless Sensor Network},
  volume    = {4523},
}

@incollection{lemac,
  author    = {Suh, Changsu and Shrestha, DeepeshMan and Ko, Young-Bae},
  editor    = {Zhou, Xiaobo and Sokolsky, Oleg and Yan, Lu and Jung, Eun-Sun and Shao, Zili and Mu, Yi and Lee, DongChun and Kim, DaeYoung and Jeong, Young-Sik and Xu, Cheng-Zhong},
  language  = {English},
  publisher = {Springer Berlin Heidelberg},
  url       = {http://dx.doi.org/10.1007/11807964_45},
  booktitle = {Emerging Directions in Embedded and Ubiquitous Computing},
  date      = {2006},
  doi       = {10.1007/11807964_45},
  isbn      = {978-3-540-36850-2},
  pages     = {445--454},
  series    = {Lecture Notes in Computer Science},
  title     = {An Energy-Efficient MAC Protocol for Delay-Sensitive Wireless Sensor Networks},
  volume    = {4097},
}

@incollection{srtdma,
  author    = {Blanckenstein, Johannes and Garcia-Jimenez, Javier and Klaue, Jirka and Karl, Holger},
  editor    = {Langendoen, Koen and Hu, Wen and Ferrari, Federico and Zimmerling, Marco and Mottola, Luca},
  language  = {English},
  publisher = {Springer International Publishing},
  url       = {http://dx.doi.org/10.1007/978-3-319-03071-5_18},
  booktitle = {Real-World Wireless Sensor Networks},
  date      = {2014},
  doi       = {10.1007/978-3-319-03071-5_18},
  isbn      = {978-3-319-03070-8},
  keywords  = {redundancy; deployment; performance evaluation; RSSI; PER},
  pages     = {165--177},
  series    = {Lecture Notes in Electrical Engineering},
  title     = {A Scalable Redundant TDMA Protocol for High-Density WSNs Inside an Aircraft},
  volume    = {281},
}

@inproceedings{wirarb,
  author    = {Zheng, Tao and Gidlund, M. and Akerberg, J.},
  booktitle = {Factory Communication Systems (WFCS), 2014 10th IEEE Workshop on},
  date      = {2014-05},
  doi       = {10.1109/WFCS.2014.6837585},
  keywords  = {access protocols;multi-access systems;wireless channels;wireless sensor networks;WSN;data delivery;deterministic deadline;energy consumption conservation;mathematical formulation;medium access protocol design;multiple access schemes;performance analysis;time-critical applications;wireless arbitration;wireless channel;wireless sensor networks;Data communication;Delays;IEEE 802.15 Standards;Logic gates;Time factors;Wireless communication;Wireless sensor networks},
  pages     = {1--7},
  title     = {Medium access protocol design for time-critical applications in wireless sensor networks},
}

@inproceedings{havinga2000,
  author    = {{Havinga}, Paul J.M. and {Smit}, Gerard J.M.},
  url       = {http://doc.utwente.nl/18890/},
  booktitle = {Asian International Mobile Computing Conference, AMOC},
  date      = {2000},
  pages     = {1--10},
  title     = {Energy-efficient TDMA medium access control protocol scheduling},
}

@inproceedings{seedex,
  author    = {Rozovsky, R. and Kumar, P. R.},
  location  = {Long Beach, CA, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/501426.501427},
  booktitle = {Proceedings of the 2Nd ACM International Symposium on Mobile Ad Hoc Networking \&Amp; Computing},
  date      = {2001},
  doi       = {10.1145/501426.501427},
  isbn      = {1-58113-428-2},
  pages     = {67--75},
  series    = {MobiHoc '01},
  title     = {SEEDEX: A MAC Protocol for Ad Hoc Networks},
}

@inproceedings{macact,
  author    = {Joa-Ng, M. and Lu, I-Tai},
  booktitle = {INFOCOM '99. Eighteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Proceedings. IEEE},
  date      = {1999-03},
  doi       = {10.1109/INFCOM.1999.751465},
  issn      = {0743-166X},
  keywords  = {access protocols;land mobile radio;radio networks;spread spectrum communication;channel throughput;clear-to-send message dialogue;collision avoidance;collision avoidance multiple access protocols;exposed terminal;hidden terminal;medium access protocols;mobile ad-hoc wireless network;request-to-send;retransmission speed;simulation results;spread spectrum medium access protocol;spreading code assignment;Access protocols;Collision avoidance;Data communication;Intelligent networks;Media Access Protocol;Multiaccess communication;Spread spectrum communication;Throughput;Transmitters;Wireless networks},
  pages     = {776--783 vol.2},
  title     = {Spread spectrum medium access protocol with collision avoidance in mobile ad-hoc wireless network},
  volume    = {2},
}

@inproceedings{carmantg,
  author    = {Garces, R. and Garcia-Luna-Aceves, J.J.},
  booktitle = {INFOCOM '97. Sixteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Driving the Information Revolution., Proceedings IEEE},
  date      = {1997-04},
  doi       = {10.1109/INFCOM.1997.635123},
  issn      = {0743-166X},
  keywords  = {access protocols;data communication;multi-access systems;packet switching;telecommunication channels;telecommunication congestion control;CARMA-NTG protocol;RTS/CTS message exchange;average channel utilization;average costs;collision avoidance;collision resolution;collision resolution splitting algorithm;contention period;data packets;floor acquisition;fully connected network;group allocation multiple access;group-transmission period;nonpersistent carrier sensing;resolution multiple access;splitting algorithm;transmission groups;upper bound;Access protocols;Collision avoidance;Costs;Information analysis;Media Access Protocol;Multiaccess communication;Positron emission tomography;Road accidents;Throughput;Upper bound},
  pages     = {134--142 vol.1},
  title     = {Collision avoidance and resolution multiple access with transmission groups},
  volume    = {1},
}

@proceeding{gama,
  author       = {Muir, Andrew and Garcia-Luna-Aceves, Jose J.},
  url          = {http://dx.doi.org/10.1117/12.264308},
  date         = {1997},
  doi          = {10.1117/12.264308},
  journaltitle = {Proc. SPIE},
  pages        = {41--54},
  title        = {Supporting real-time multimedia traffic in a wireless LAN},
  volume       = {3020},
}

@inproceedings{famapj,
  author    = {Fullmer, Chane L. and Garcia-Luna-Aceves, J. J.},
  location  = {Berkeley, California, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/215530.215559},
  booktitle = {Proceedings of the 1st Annual International Conference on Mobile Computing and Networking},
  date      = {1995},
  doi       = {10.1145/215530.215559},
  isbn      = {0-89791-814-2},
  pages     = {76--85},
  series    = {MobiCom '95},
  title     = {FAMA-PJ: A Channel Access Protocol for Wireless LANs},
}

@article{bram,
  author       = {Chlamtac, I. and Franta, William R. and Levin, K.},
  date         = {1979-08},
  doi          = {10.1109/TCOM.1979.1094529},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {Broadcast channels;Multiple-access communications;Access protocols;Coaxial cables;Communication cables;Multiaccess communication;Optical fiber cables;Optical fiber communication;Processor scheduling;Propagation delay;Radio broadcasting;Throughput},
  number       = {8},
  pages        = {1183--1190},
  title        = {BRAM: The Broadcast Recognizing Access Method},
  volume       = {27},
}

@article{msap,
  author       = {Kleinrock, L. and Scholl, M.},
  date         = {1980-07},
  doi          = {10.1109/TCOM.1980.1094751},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {Broadcast channels;Packet switching;Centralized control;Communication networks;Communication switching;Communication system control;Computer networks;Data communication;Distributed computing;Packet switching;Radio broadcasting;Switching circuits},
  number       = {7},
  pages        = {1015--1029},
  title        = {Packet Switching in Radio Channels: New Conflict-Free Multiple Access Schemes},
  volume       = {28},
}

@inproceedings{dama,
  author    = {Roberts, Lawrence G.},
  location  = {New York, New York},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/1499586.1499753},
  booktitle = {Proceedings of the June 4-8, 1973, National Computer Conference and Exposition},
  date      = {1973},
  doi       = {10.1145/1499586.1499753},
  pages     = {711--716},
  series    = {AFIPS '73},
  title     = {Dynamic Allocation of Satellite Capacity Through Packet Reservation},
}

@article{srma,
  author       = {Tobagi, F.A. and Kleinrock, L.},
  date         = {1976-08},
  doi          = {10.1109/TCOM.1976.1093393},
  issn         = {0090-6778},
  journaltitle = {Communications, IEEE Transactions on},
  keywords     = {Broadcast channels;Multiple-access communications;Packet switching;Bandwidth;Computer networks;Frequency division multiaccess;Mobile communication;Multiaccess communication;Packet switching;RF signals;Radio communication;Time division multiple access;Wire},
  number       = {8},
  pages        = {832--845},
  title        = {Packet Switching in Radio Channels: Part III--Polling and (Dynamic) Split-Channel Reservation Multiple Access},
  volume       = {24},
}

@article{famancs,
  author       = {Garcia-Luna-Aceves, J. J. and Fullmer, Chane L.},
  location     = {Secaucus, NJ, USA},
  publisher    = {Springer-Verlag New York, Inc.},
  url          = {http://dx.doi.org/10.1023/A:1019146831447},
  date         = {1999-10},
  doi          = {10.1023/A:1019146831447},
  issn         = {1383-469X},
  journaltitle = {Mob. Netw. Appl.},
  number       = {3},
  pages        = {157--174},
  title        = {Floor Acquisition Multiple Access (FAMA) in Single-channel Wireless Networks},
  volume       = {4},
}

@inproceedings{sm,
  author    = {Wu, Shih-Lin and Lin, Chih-Yu and Tseng, Yu-Chee and Sheu, Jang-Ping},
  booktitle = {Parallel Architectures, Algorithms and Networks, 2000. I-SPAN 2000. Proceedings. International Symposium on},
  date      = {2000},
  doi       = {10.1109/ISPAN.2000.900290},
  issn      = {1087-4089},
  keywords  = {access protocols;channel allocation;mobile computing;mobile hosts;multi-channel MAC protocol;multi-hop communication;multiple channels;wireless mobile ad hoc network;Access protocols;Clocks;Computer science;Media Access Protocol;Mobile ad hoc networks;Mobile communication;Propagation delay;Quality of service;Spread spectrum communication;Synchronization},
  pages     = {232--237},
  title     = {A new multi-channel MAC protocol with on-demand channel assignment for multi-hop mobile ad hoc networks},
}

@inproceedings{chma,
  author    = {Tzamaloukas, A. and Garcia-Luna-Aceves, J.J.},
  booktitle = {Communications, 2000. ICC 2000. 2000 IEEE International Conference on},
  date      = {2000},
  doi       = {10.1109/ICC.2000.853348},
  keywords  = {access protocols;data communication;delays;multi-access systems;multiuser channels;packet radio networks;radiofrequency interference;spread spectrum communication;CHMA protocols;MAC protocols;MACA-CT;channel-hopping multiple access;collision-avoidance handshakes;collision-free data reception;commercial off-the shelf spread spectrum radios;data packets;delay characteristics;hidden terminals;interference;medium-access control protocols;multi-channel ad-hoc networks;performance;throughput;unlicensed frequency bands;wireless networks;Access protocols;Ad hoc networks;Delay;Frequency;Interference;Media Access Protocol;Spread spectrum communication;Throughput;Wireless application protocol;Wireless networks},
  pages     = {415--419 vol.1},
  title     = {Channel-hopping multiple access},
  volume    = {1},
}

@inproceedings{mmac2004,
  author    = {So, Jungmin and Vaidya, Nitin H.},
  location  = {Roppongi Hills, Tokyo, Japan},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/989459.989487},
  booktitle = {Proceedings of the 5th ACM International Symposium on Mobile Ad Hoc Networking and Computing},
  date      = {2004},
  doi       = {10.1145/989459.989487},
  isbn      = {1-58113-849-0},
  keywords  = {ad hoc network,medium access control,multi-channel},
  pages     = {222--233},
  series    = {MobiHoc '04},
  title     = {Multi-channel Mac for Ad Hoc Networks: Handling Multi-channel Hidden Terminals Using a Single Transceiver},
}

@inproceedings{mcmac2007,
  author    = {Hoi-Sheung and So, W. and Walrand, J. and Mo, Jeonghoon},
  booktitle = {Wireless Communications and Networking Conference, 2007.WCNC 2007. IEEE},
  date      = {2007-03},
  doi       = {10.1109/WCNC.2007.67},
  issn      = {1525-3511},
  keywords  = {access protocols;radio networks;telecommunication congestion control;McMAC;control channel congestion;multichannel MAC protocol;multiple channels;parallel rendezvous protocol;wireless networks;Access protocols;Concurrent computing;Media Access Protocol;Peer to peer computing;Radio control;Scheduling;Switches;Throughput;USA Councils;Wireless application protocol},
  pages     = {334--339},
  title     = {McMAC: A Parallel Rendezvous Multi-Channel MAC Protocol},
}

@inproceedings{carma,
  author    = {Garcés, Rodrigo and Garcia-Luna-Aceves, J. J.},
  location  = {Rye, New York, USA},
  publisher = {ACM},
  url       = {http://doi.acm.org/10.1145/236387.236446},
  booktitle = {Proceedings of the 2Nd Annual International Conference on Mobile Computing and Networking},
  date      = {1996},
  doi       = {10.1145/236387.236446},
  isbn      = {0-89791-872-X},
  pages     = {187--197},
  series    = {MobiCom '96},
  title     = {Floor Acquisition Multiple Access with Collision Resolution},
}

@inproceedings{mascara1996,
  author       = {Bauchot, Frederic and Decrauzat, Stephane and Marmigere, Gerad and Merakos, Lazaros and Passas, Nikos},
  organization = {Citeseer},
  booktitle    = {Proc. ACTS Mobile Summit},
  date         = {1996},
  pages        = {17--22},
  title        = {MASCARA, a MAC protocol for wireless ATM},
  volume       = {96},
}

@inproceedings{msaloha,
  author    = {Scopigno, R. and Cozzetti, H.A.},
  booktitle = {Vehicular Technology Conference Fall (VTC 2009-Fall), 2009 IEEE 70th},
  date      = {2009-09},
  doi       = {10.1109/VETECF.2009.5378792},
  issn      = {1090-3038},
  keywords  = {access protocols;mobile communication;road vehicles;MS-Aloha protocol;VANET;mobile slotted Aloha;Access protocols;Ad hoc networks;Collision avoidance;Frequency;Multiaccess communication;Physical layer;Quality of service;Scalability;Time division multiple access;Wireless sensor networks},
  pages     = {1--5},
  title     = {Mobile Slotted Aloha for Vanets},
}

@article{rraloha,
  author       = {Borgonovo, Flaminio and Capone, Antonio and Cesana, Matteo and Fratta, Luigi},
  date         = {2002},
  journaltitle = {Proceedings of Med-Hoc-Net 2002},
  title        = {RR-ALOHA, a Reliable R-ALOHA broadcast channel for ad-hoc inter-vehicle communication networks},
}

@inproceedings{rralohaplus,
  author    = {Cozzetti, H.A. and Scopigno, R.},
  booktitle = {Vehicular Networking Conference (VNC), 2009 IEEE},
  date      = {2009-10},
  doi       = {10.1109/VNC.2009.5416375},
  keywords  = {carrier sense multiple access;mobile radio;quality of service;telecommunication network reliability;wireless LAN;NS-2 simulation;QoS;RR-Aloha+;WiFi CSMA-CA;contention-free wireless architecture;distributed MAC protocol;distributed access channel;distributed contention approach;network simulator;quality of service;slotted protocol;vehicular communications;vehicular mobility;Access protocols;Broadcasting;Media Access Protocol;Multiaccess communication;Safety;Scalability;Telecommunication traffic;Testing;Vehicle dynamics;Wireless sensor networks},
  pages     = {1--8},
  title     = {RR-Aloha+: A slotted and distributed MAC protocol for vehicular communications},
}

@inproceedings{adhocmac,
  author    = {Borgonovo, F. and Capone, A. and Cesana, M. and Fratta, L.},
  booktitle = {Wireless Communications and Networking, 2003. WCNC 2003. 2003 IEEE},
  date      = {2003-03},
  doi       = {10.1109/WCNC.2003.1200502},
  issn      = {1525-3511},
  keywords  = {3G mobile communication;access protocols;ad hoc networks;bandwidth allocation;broadcast channels;radio access networks;radio links;wireless LAN;ADHOC MAC;IEEE 802.11;MAC architecture;RR ALOHA protocol;UMTS terrestrial radio access TDD;ad hoc networks;broadcast service;intervehicle communications;parallel transmissions;point to point channels;single hop broadcast channel;slotted/framed structure;Access protocols;Ad hoc networks;Energy consumption;Floods;Mobile ad hoc networks;Mobile communication;Network topology;Physical layer;Radio broadcasting;Telecommunication network reliability},
  pages     = {965--970 vol.2},
  title     = {ADHOC: a new, flexible and reliable MAC architecture for ad-hoc networks},
  volume    = {2},
}

@inproceedings{raloha,
  author    = {Crowther, W and Rettberg, R and Walden, D and Ornstein, S and Heart, F},
  booktitle = {Proc. 6th Hawaii Int. Conf. Syst. Sci},
  date      = {1973},
  pages     = {596--603},
  title     = {A system for broadcast communication: Reservation-ALOHA},
}

@inproceedings{mraloha,
  author    = {Asadallahi, S. and Refai, H.H.},
  booktitle = {Wireless Communications and Mobile Computing Conference (IWCMC), 2012 8th International},
  date      = {2012-08},
  doi       = {10.1109/IWCMC.2012.6314295},
  keywords  = {carrier sense multiple access;telecommunication congestion control;telecommunication network reliability;time division multiple access;vehicular ad hoc networks;CSMA techniques;TDMA protocols;TDMA techniques;VANET;broadcast MAC protocol;broadcast failure detection;channel access mechanism;congestion control;medium access control;modified R-ALOHA;rapid broadcast;reliable broadcast;safety messages;vehicular ad hoc networks;Analytical models;Computer network reliability;Media Access Protocol;Reliability;Transient analysis;Vehicles;Medium Access Control (MAC);R-ALOHA;VANETs},
  pages     = {734--738},
  title     = {Modified R-ALOHA: Broadcast MAC protocol for Vehicular Ad hoc Networks},
}

@inproceedings{marraloha,
  author    = {Liu, Ruilin and Xiang, Yong and Yang, Yanqing},
  booktitle = {Consumer Electronics, Communications and Networks (CECNet), 2012 2nd International Conference on},
  date      = {2012-04},
  doi       = {10.1109/CECNet.2012.6201688},
  keywords  = {access protocols;carrier sense multiple access;telecommunication network reliability;vehicular ad hoc networks;3-hops channel state;ALOHA protocol;BCH reservation;CSMA;MARR-ALOHA;NS-2 simulation;VANET;basic channel reservation;contention severity;distributed time-scheduling MAC algorithms;mobility adaptive variety;node density;slot allocation quality;transmission efficiency;transmission reliability;vehicular ad hoc networks;Collision avoidance;Decision support systems;Multiaccess communication;Reliability;Resource management;Safety;Simulation;Collision Avoidance;MAC;RR-ALOHA;VANET},
  pages     = {3304--3309},
  title     = {MARR-ALOHA: A mobility adaptive variety of RR-ALOHA for vehicular ad-hoc networks},
}

@inproceedings{evemac,
  author    = {Nguyen, VanDung and Dang, Duc Ngoc Minh and Jang, Sungman and Hong, Choong Seon},
  booktitle = {Network Operations and Management Symposium (APNOMS), 2014 16th Asia-Pacific},
  date      = {2014-09},
  doi       = {10.1109/APNOMS.2014.6996561},
  keywords  = {access protocols;telecommunication traffic;vehicular ad hoc networks;TDMA-based MAC protocol;VANET;e-VeMAC protocol;enhanced vehicular MAC protocol;parallel transmissions;road side units;slot release prevention condition;vehicular ad-hoc networks;Media Access Protocol;Reliability;Road transportation;Vehicles;Vehicular ad hoc networks;MAC;VANET;VeMAC;parallel transmission},
  pages     = {1--4},
  title     = {e-VeMAC: An enhanced vehicular MAC protocol to mitigate the exposed terminal problem},
}

@inproceedings{isomac,
  author    = {Trsek, H. and Jasperneite, J.},
  booktitle = {Precision Clock Synchronization for Measurement Control and Communication (ISPCS), 2011 International IEEE Symposium on},
  date      = {2011-09},
  doi       = {10.1109/ISPCS.2011.6070162},
  issn      = {1949-0305},
  keywords  = {access protocols;factory automation;synchronisation;wireless LAN;IEEE 802.11 protocol;IEEE 802.11 wireless local area networks;IsoMAC;factory automation systems;industrial automation systems;isochronous medium access;medium access control;real-time wireless communications;wireless clock synchronization;wireless technologies;IEEE 802.11 Standards;Media Access Protocol;Quality of service;Real time systems;Synchronization;Time division multiple access;Wireless communication},
  pages     = {81--86},
  title     = {An isochronous medium access for real-time wireless communications in industrial automation systems - A use case for wireless clock synchronization},
}

@inproceedings{ftdma,
  author    = {Willig, A.},
  booktitle = {Factory Communication Systems, 1997. Proceedings. 1997 IEEE International Workshop on},
  date      = {1997-10},
  doi       = {10.1109/WFCS.1997.634293},
  keywords  = {processor scheduling;production engineering computing;protocols;wireless LAN;MAC protocol;data link layer services;link state dependent scheduling approach;lower layer protocols;protocols;transmission efficiency;wireless communication media;wireless industrial LANs;wireless links;Access protocols;Bandwidth;Intelligent networks;Job shop scheduling;Local area networks;Media Access Protocol;Scheduling algorithm;Time division multiple access;Wireless LAN;Wireless application protocol},
  pages     = {139--148},
  title     = {A MAC protocol and a scheduling approach as elements of a lower layers architecture in wireless industrial LANs},
}

@inproceedings{dmac1997,
  author    = {Holtkamp, Ralf and Ebert, Jean-pierre and Wolisz, Adam and Ramel, Louis and Fokus, Also Gmd},
  booktitle = {In Proc. 5th Telecommunication System Conference},
  date      = {1997},
  title     = {A distributed media access control (dmac) for wireless atm networks},
}

@inproceedings{dsapp,
  author    = {Petras, D.},
  booktitle = {Wireless Communication System Symposium, 1995., IEEE},
  date      = {1995-11},
  doi       = {10.1109/WCSS.1995.588487},
  keywords  = {access protocols;ATM multiplexers;DSA++;air interface;capacity on demand;dynamic frequency selection algorithm;medium access control protocol;mobile ATM terminals;power saving mode;resource scanning algorithm;statistical multiplexing;wireless transparent ATM access;Access protocols;Asynchronous transfer mode;Base stations;Communication networks;Downlink;Electronic mail;Frequency;Media Access Protocol;Wireless application protocol;World Wide Web},
  pages     = {79--85},
  title     = {Medium access control protocol for wireless, transparent ATM access},
}

@article{wu2000,
  author       = {Wu, Shih-Lin and Tseng, Yu-Chee and Sheu, Jang-Ping},
  date         = {2000-09},
  doi          = {10.1109/49.872953},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {access protocols;cochannel interference;frequency allocation;land mobile radio;packet radio networks;power control;telecommunication control;MAC protocol;MAC protocols;MANET;RTS/CTS-based protocol;busy-tone-based protocol;channel reuse;channel utilization;cochannel interference;discrete power levels;exposed-terminal problem;hidden-terminal problem;intelligent medium access;mobile ad hoc networks;packets;performance;power control;power level;Access protocols;Analytical models;Batteries;Computer science;Intelligent networks;Interchannel interference;Media Access Protocol;Mobile ad hoc networks;Power control;Wireless networks},
  number       = {9},
  pages        = {1647--1657},
  title        = {Intelligent medium access for mobile ad hoc networks with busy tones and power control},
  volume       = {18},
}

@article{watmmac,
  author       = {Raychaudhuri, D. and French, L.J. and Siracusa, R.J. and Biswas, S.K. and Yuan, Ruixi and Narasimhan, P. and Johnston, C.A.},
  date         = {1997-01},
  doi          = {10.1109/49.553680},
  issn         = {0733-8716},
  journaltitle = {Selected Areas in Communications, IEEE Journal on},
  keywords     = {access protocols;asynchronous transfer mode;cellular radio;laptop computers;microcomputer applications;modems;multimedia communication;network interfaces;personal communication networks;telecommunication computing;telecommunication control;telecommunication signalling;time division multiple access;transport protocols;AAL5;ISM band modems;MAC protocol;NEC Versa-M;TCP/IP;VME/i960 processor;WATMnet base stations;WATMnet interface cards;application level API;available bit rate;constant bit rate;data link control protocol;dynamic time-division multiple-access;experimental system hardware;integrated multimedia communication services;laptop computers;local area ATM switch;microcellular wireless network;mobile terminals;mobility signalling;multimedia personal communication;prototype wireless ATM system;switched virtual circuit connection control;transport services;variable bit rate;wireless network interface cards;wireless network protocols;Asynchronous transfer mode;Base stations;Bit rate;Multimedia systems;Portable computers;Prototypes;Switches;Transport protocols;Wireless application protocol;Wireless networks},
  number       = {1},
  pages        = {83--95},
  title        = {WATMnet: a prototype wireless ATM system for multimedia personal communication},
  volume       = {15},
}

@inproceedings{dsa,
  author    = {Petras, Dietmar},
  booktitle = {Access in MBS. RACE Mobile Telecommunication},
  date      = {1995},
  title     = {Medium Access Control Protocol for transparent ATM Access in MBS},
}

@article{lmac2009,
  author       = {Fu, Chung-Jung and Lee, Ang-Hsi and Jin, Ming-Hui and Kao, Cheng-Yan},
  url          = {http://www.sersc.org/journals/IJFGCN/vol2_no1/6.pdf},
  date         = {2009-03},
  journaltitle = {International Journal of Future Generation Communication and Networking},
  number       = {1},
  title        = {A Latency MAC Protocol for Wireless Sensor Networks},
  volume       = {2},
}

@article{bpmac,
  author       = {Klein, Alexander and Klaue, Jirka and Schalk, Josef},
  url          = {http://www.ejse.org/Archives/Fulltext/2009/Special/2009SP4.pdf},
  date         = {2009},
  journaltitle = {Electronic Journal of Structural Engineering (EJSE): Special Issue of Sensor Networks for Building Monitoring: From Theory to Real Application},
  pages        = {35--45},
  title        = {BP-MAC: a high reliable backoff preamble MAC protocol for wireless sensor networks},
}

@article{fdcmac2015a,
  author       = {Cheng, W. and Zhang, X. and Zhang, H.},
  date         = {2015-05},
  doi          = {10.1109/JSAC.2014.2361078},
  issn         = {0733-8716},
  journaltitle = {IEEE Journal on Selected Areas in Communications},
  keywords     = {access protocols;cognitive radio;radio spectrum management;signal detection;synchronisation;wireless channels;FDC-MAC protocol;PU high-throughput transmission;SU channel utilization;cognitive radio network synchronization;full-duplex cognitive medium access control protocol;full-duplex spectrum sensing;multichannel nontime slotted CRN;primary users;primary wireless network;secondary users;secondary wireless network;wireless FD-SS scheme;Media Access Protocol;Sensors;Synchronization;Wireless networks;Wireless sensor networks;Cognitive radio networks (CRNs);Full-duplex spectrum sensing;MAC protocol;full-duplex spectrum sensing;multichannel non-time slotted CRNs;multichannel non-time-slotted CRNs},
  number       = {5},
  pages        = {820--831},
  title        = {Full-Duplex Spectrum-Sensing and MAC-Protocol for Multichannel Nontime-Slotted Cognitive Radio Networks},
  volume       = {33},
}

@article{dsp,
  author       = {Almotairi, K. H. and Shen, X. (.},
  date         = {2015-01},
  doi          = {10.1109/TMC.2014.2316822},
  issn         = {1536-1233},
  journaltitle = {IEEE Transactions on Mobile Computing},
  keywords     = {access protocols;ad hoc networks;frequency hop communication;wireless LAN;IEEE 802.11 MAC strategies;ad hoc wireless networks;analytical model;distributed multi-channel MAC protocol;dual radio interfaces;fast hopping sequences;maximum saturation throughput;medium access control protocol;multi-hop networks;multiple rendezvous approach;network simulator-2;single-hop networks;slow hopping sequences;upper achievable throughput;IEEE 802.11 Standards;Media Access Protocol;Mobile computing;Receivers;Switches;Synchronization;IEEE 802.11 networks;Multi-channel networks;frequency hopping sequence;medium access control},
  number       = {1},
  pages        = {1--13},
  title        = {A Distributed Multi-Channel MAC Protocol for Ad Hoc Wireless Networks},
  volume       = {14},
}

@article{hehbmac,
  abstract     = {This paper introduces human energy harvesting medium access control (MAC) protocol (HEH-BMAC), a hybrid polling MAC suitable for wireless body area networks powered by human energy harvesting. The proposed protocol combines two different medium access methods, namely polling (ID-polling) and probabilistic contention access, to adapt its operation to the different energy and state (active/inactive) changes that the network nodes may experience due to their random nature and the time variation of the energy harvesting sources. HEH-BMAC exploits the packet inter-arrival time and the energy harvesting rate information of each node to implement an efficient access scheme with different priority levels. In addition, our protocol can be applied dynamically in realistic networks, since it is adaptive to the topology changes, allowing the insertion/removal of wireless sensor nodes. Extensive simulations have been conducted in order to evaluate the protocol performance and study the throughput and energy tradeoffs.},
  author       = {Ibarra, Ernesto and Antonopoulos, Angelos and Kartsakli, Elli and Verikoukis, Christos},
  url          = {https://doi.org/10.1007/s11235-014-9898-z},
  date         = {2015-02-01},
  doi          = {10.1007/s11235-014-9898-z},
  issn         = {1572-9451},
  journaltitle = {Telecommunication Systems},
  number       = {2},
  pages        = {111--124},
  title        = {HEH-BMAC: Hybrid polling MAC protocol for WBANs operated by human energy harvesting},
  volume       = {58},
}

@article{camac2015,
  author       = {Shao, C. and Leng, S. and Zhang, Y. and Vinel, A. and Jonsson, M.},
  date         = {2015-12},
  doi          = {10.1109/TVT.2015.2479942},
  issn         = {0018-9545},
  journaltitle = {IEEE Transactions on Vehicular Technology},
  keywords     = {Markov processes;access protocols;energy consumption;fuel economy;probability;road safety;vehicular ad hoc networks;wireless channels;connectivity probability performance analysis;connectivity-aware MAC protocol design;fuel consumption reduction;medium access control protocol;multichannel reservation scheme;multipriority Markov model;passenger comfort;passenger safety;platoon-based VANET;road safety improvement;variable traffic status;vehicle-to-infrastructure communication scenario;vehicle-to-vehicle communication scenario;vehicular ad hoc network;Connected vehicles;Media Access Protocol;Throughput;Vehicular ad hoc networks;Connectivity probability;V2I;V2V;VANETs;connectivity probability;medium access control;medium access control (MAC);one-way;oneway;platoon;two-way;vehicle-to-infrastructure (V2I);vehicle-to-vehicle (V2V);vehicular ad hoc networks (VANETs)},
  number       = {12},
  pages        = {5596--5609},
  title        = {Performance Analysis of Connectivity Probability and Connectivity-Aware MAC Protocol Design for Platoon-Based VANETs},
  volume       = {64},
}

@article{delcmac,
  author       = {Wang, X. and Li, J.},
  date         = {2015-04},
  doi          = {10.1109/TPDS.2013.110},
  issn         = {1045-9219},
  journaltitle = {IEEE Transactions on Parallel and Distributed Systems},
  keywords     = {access protocols;mobile ad hoc networks;radio transceivers;CMAC protocol;MANET;circuitry energy consumption;cooperative MAC protocol design;cooperative communication;energy consumption model;innovative network allocation vector setting;medium access interactions;mobile ad-hoc networks;network lifetime;relay selection strategy;transceiver circuitry;transmit amplifier;wireless networks;Cooperative communication;Information sharing;Lifetime estimation;Media Access Protocol;Relays;Network lifetime;cooperative communication;medium access control protocol;relay selection},
  number       = {4},
  pages        = {1010--1020},
  title        = {Improving the Network Lifetime of MANETs through Cooperative MAC Protocol Design},
  volume       = {26},
}

@article{cehmac,
  abstract     = {In this paper, we introduce a cooperative medium access control (MAC) protocol, named cooperative energy harvesting (CEH)-MAC, that adapts its operation to the energy harvesting (EH) conditions in wireless body area networks (WBANs). In particular, the proposed protocol exploits the EH information in order to set an idle time that allows the relay nodes to charge their batteries and complete the cooperation phase successfully. Extensive simulations have shown that CEH-MAC significantly improves the network performance in terms of throughput, delay and energy efficiency compared to the cooperative operation of the baseline IEEE 802.15.6 standard.},
  author       = {Esteves, Volker and Antonopoulos, Angelos and Kartsakli, Elli and Puig-Vidal, Manel and Miribel-Català, Pere and Verikoukis, Christos},
  url          = {http://www.mdpi.com/1424-8220/15/6/12635},
  date         = {2015},
  doi          = {10.3390/s150612635},
  issn         = {1424-8220},
  journaltitle = {Sensors},
  number       = {6},
  pages        = {12635--12650},
  title        = {Cooperative Energy Harvesting-Adaptive MAC Protocol for WBANs},
  volume       = {15},
}

@article{dfdmac,
  author       = {Liao, Y. and Bian, K. and Song, L. and Han, Z.},
  date         = {2015-07},
  doi          = {10.1109/LCOMM.2015.2424696},
  issn         = {1089-7798},
  journaltitle = {IEEE Communications Letters},
  keywords     = {access protocols;radio networks;radiofrequency interference;FD communication systems;PHY layer;RSI;band full duplex communications;double spectral efficiency;full-duplex MAC protocol design;hardware design techniques;medium access control;residual self-interference;self-interference cancellation;transmitters;High definition video;Media Access Protocol;Multiaccess communication;Sensors;Simulation;Throughput;Cognitive radio;MAC protocol design;full-duplex communications},
  number       = {7},
  pages        = {1185--1188},
  title        = {Full-Duplex MAC Protocol Design and Analysis},
  volume       = {19},
}

@article{lodmac,
  author       = {Temel, Samil and Bekmezci, Ilker},
  publisher    = {Elsevier},
  date         = {2015},
  doi          = {10.1016/j.comnet.2015.03.001},
  journaltitle = {Computer Networks},
  pages        = {76--84},
  title        = {LODMAC: Location oriented directional MAC protocol for FANETs},
  volume       = {83},
}

@article{imac,
  abstract     = {Targeting the medical monitoring applications of wireless body area networks (WBANs), a hybrid medium access control protocol using an interrupt mechanism (I-MAC) is proposed to improve the energy and time slot utilization efficiency and to meet the data delivery delay requirement at the same time. Unlike existing hybrid MAC protocols, a superframe structure with a longer length is adopted to avoid unnecessary beacons. The time slots are mostly allocated to nodes with periodic data sources. Short interruption slots are inserted into the superframe to convey the urgent data and to guarantee the real-time requirements of these data. During these interruption slots, the coordinator can break the running superframe and start a new superframe. A contention access period (CAP) is only activated when there are more data that need to be delivered. Experimental results show the effectiveness of the proposed MAC protocol in WBANs with low urgent traffic.},
  author       = {Shu, Minglei and Yuan, Dongfeng and Zhang, Chongqing and Wang, Yinglong and Chen, Changfang},
  url          = {http://www.mdpi.com/1424-8220/15/6/12906},
  date         = {2015},
  doi          = {10.3390/s150612906},
  issn         = {1424-8220},
  journaltitle = {Sensors},
  number       = {6},
  pages        = {12906--12931},
  title        = {A MAC Protocol for Medical Monitoring Applications of Wireless Body Area Networks},
  volume       = {15},
}

@article{rcmac,
  author       = {Huang, P. and Wang, C. and Xiao, L.},
  date         = {2015-04},
  doi          = {10.1109/TC.2014.2308174},
  issn         = {0018-9340},
  journaltitle = {IEEE Transactions on Computers},
  keywords     = {Zigbee;access protocols;channel allocation;energy conservation;radio transceivers;signal detection;telecommunication congestion control;telecommunication power management;telecommunication scheduling;wireless channels;wireless sensor networks;IEEE 802.15.4 RF transceiver;RC-MAC protocol;TelosB mote;TinyOS mote;WSN MAC protocol;collision reduction;contention-based MAC protocol;data gathering tree;distributed channel assignment;duty cycling;energy efficiency;event detection;event-driven wireless sensor network throughput;light traffic load;multichannel technique;ns-2 simulations;receiver centric MAC protocol;receiver-centric medium access scheduling;Bandwidth;Data communication;Media Access Protocol;Receivers;Schedules;Throughput;Wireless sensor networks;Wireless sensor networks;medium access control;multichannel;receiver-centric scheduling},
  number       = {4},
  pages        = {1149--1161},
  title        = {RC-MAC: A Receiver-Centric MAC Protocol for Event-Driven Wireless Sensor Networks},
  volume       = {64},
}

@article{bsmac,
  author       = {Alvi, A. N. and Bouk, S. H. and Ahmed, S. H. and Yaqub, M. A. and Javaid, N. and Kim, D.},
  date         = {2015-06},
  doi          = {10.1109/JCN.2015.000046},
  issn         = {1229-2370},
  journaltitle = {Journal of Communications and Networks},
  keywords     = {access protocols;telecommunication power management;wireless sensor networks;BS-MAC;SJF algorithm;WSN;adaptive data control;adaptive time division multiple access based medium access control protocol;adaptive traffic loads;bitmap-assisted shortest job first based MAC;control overhead;enhanced TDMA based MAC protocol;hierarchical wireless sensor networks;member nodes;short node address;shortest job first algorithm;time slots;Delays;Energy consumption;Media Access Protocol;Steady-state;Time division multiple access;Wireless sensor networks;Contention free;medium access control (MAC);time division multiple access (TDMA);wireless sensor networks},
  number       = {3},
  pages        = {247--255},
  title        = {Enhanced TDMA based MAC protocol for adaptive data control in wireless sensor networks},
  volume       = {17},
}

@article{rrscmac,
  author       = {Liu, Kai and Chang, Xiaoying and Liu, Feng and Wang, Xin and Vasilakos, Athanasios V},
  publisher    = {Elsevier},
  date         = {2015},
  doi          = {10.1016/j.comnet.2015.08.020},
  journaltitle = {Computer Networks},
  pages        = {262--282},
  title        = {A cooperative MAC protocol with rapid relay selection for wireless ad hoc networks},
  volume       = {91},
}

@article{qsps,
  author       = {Liu, J. and Li, M. and Yuan, B. and Liu, W.},
  date         = {2015-02},
  doi          = {10.1109/CC.2015.7084398},
  issn         = {1673-5447},
  journaltitle = {China Communications},
  keywords     = {body area networks;energy conservation;telecommunication power management;time division multiple access;Q-sleep mode;QS-PS;TDMA;WBAN;allocated slots;awakening message;emergency packets;energy efficient MAC protocol;normal packets;quasisleep-preempt-supported;wireless body area network;Clocks;Delays;Energy efficiency;Receivers;Resource management;Sensors;Topology;Quasi-Sleep;TDMA;WBAN;delay;energy efficient;preemption},
  number       = {2},
  pages        = {11--20},
  title        = {A novel energy efficient MAC protocol for Wireless Body Area Network},
  volume       = {12},
}

@article{pamac,
  abstract     = {In wireless body area networks (WBANs), various sensors and actuators are placed on/inside the human body and connected wirelessly. WBANs have specific requirements for healthcare and medical applications, hence, standard protocols like the IEEE 802.15.4 cannot fulfill all the requirements. Consequently, many medium access control (MAC) protocols, mostly derived from the IEEE 802.15.4 superframe structure, have been studied. Nevertheless, they do not support a differentiated quality of service (QoS) for the various forms of traffic coexisting in a WBAN. In particular, a QoS-aware MAC protocol is essential for WBANs operating in the unlicensed Industrial, Scientific, and Medical (ISM) bands, because different wireless services like Bluetooth, WiFi, and Zigbee may coexist there and cause severe interference. In this paper, we propose a priority-based adaptive MAC (PA-MAC) protocol for WBANs in unlicensed bands, which allocates time slots dynamically, based on the traffic priority. Further, multiple channels are effectively utilized to reduce access delays in a WBAN, in the presence of coexisting systems. Our performance evaluation results show that the proposed PA-MAC outperforms the IEEE 802.15.4 MAC and the conventional priority-based MAC in terms of the average transmission time, throughput, energy consumption, and data collision ratio.},
  author       = {Bhandari, Sabin and Moh, Sangman},
  url          = {http://www.mdpi.com/1424-8220/16/3/401},
  date         = {2016},
  doi          = {10.3390/s16030401},
  issn         = {1424-8220},
  journaltitle = {Sensors},
  number       = {3},
  title        = {A Priority-Based Adaptive MAC Protocol for Wireless Body Area Networks},
  volume       = {16},
}

@article{bestmac,
  author       = {Alvi, A. N. and Bouk, S. H. and Ahmed, S. H. and Yaqub, M. A. and Sarkar, M. and Song, H.},
  date         = {2016},
  doi          = {10.1109/ACCESS.2016.2515096},
  issn         = {2169-3536},
  journaltitle = {IEEE Access},
  keywords     = {energy consumption;knapsack problems;quality control;smart cities;telecommunication power management;telecommunication scheduling;telecommunication traffic;time division multiple access;wireless sensor networks;BEST-MAC;ICT;Information and Communication Technologies;adaptive traffic load;average packet delay minimization;bitmap-assisted efficient and scalable TDMA-based WSN MAC protocol;control overhead reducetion;data traffic;delay sensitive applications;energy consumption;knapsack algorithm;medium access control protocol;member node identification;quality control improvement;short node address;small size time slot scheduling;smart cities;time division multiple access;wireless communication;wireless sensor network;Delays;Media Access Protocol;Smart cities;Time division multiple access;Wireless communication;Wireless sensor networks;Contention Free;MAC;Smart Cities;Smart cities;TDMA;Wireless Sensor Networks;contention free;wireless sensor networks},
  pages        = {312--322},
  title        = {BEST-MAC: Bitmap-Assisted Efficient and Scalable TDMA-Based WSN MAC Protocol for Smart Cities},
  volume       = {4},
}

@article{upcmac,
  author       = {Su, Yishan and Zhu, Yibo and Mo, Haining and Cui, Jun-Hong and Jin, Zhigang},
  publisher    = {Elsevier},
  date         = {2015},
  doi          = {10.1016/j.adhoc.2014.10.014},
  journaltitle = {Ad Hoc Networks},
  pages        = {36--49},
  title        = {A joint power control and rate adaptation MAC protocol for underwater sensor networks},
  volume       = {26},
}

@article{hmmac,
  abstract     = {In a regular wireless ad hoc network, the Medium Access Control (MAC) protocol coordinates channel access among nodes, and the throughput of the network is limited by the bandwidth of a single channel. The multi-channel MAC protocols can exploit multiple channels to achieve high network throughput by enabling more concurrent transmissions. In this paper, we propose a hybrid and adaptive protocol, called H-MMAC, which utilizes multi-channel resources more efficiently than other multi-channel MAC protocols. The main idea is to adopt the IEEE 802.11 Power Saving Mechanism and to allow nodes to transmit data packets while other nodes try to negotiate the data channel during the Ad hoc Traffic Indication Message window based on the network traffic load. The analytical and simulation results show that the proposed H-MMAC protocol improves the network performance significantly in terms of the aggregate throughput, average delay, fairness and energy efficiency.},
  author       = {Dang, Duc Ngoc Minh and Hong, Choong Seon and Lee, Sungwon},
  url          = {https://doi.org/10.1007/s11276-014-0789-8},
  date         = {2015-02-01},
  doi          = {10.1007/s11276-014-0789-8},
  issn         = {1572-8196},
  journaltitle = {Wireless Networks},
  number       = {2},
  pages        = {387--404},
  title        = {A hybrid multi-channel MAC protocol for wireless ad hoc networks},
  volume       = {21},
}

@inproceedings{kim2015,
  author    = {Kim, J. K. and Kim, W. K. and Kim, J. H.},
  booktitle = {2015 IEEE Globecom Workshops (GC Wkshps)},
  date      = {2015-12},
  doi       = {10.1109/GLOCOMW.2015.7414143},
  keywords  = {access protocols;power consumption;wireless LAN;MAC protocol data unit;WLAN;asymmetric transmission time;full duplex MAC protocol;full duplex communication;power consumption;primary transmission time;secondary transmission time;wireless local area network;Degradation;Media Access Protocol;Performance evaluation;Radiation detectors;Schedules;Throughput;Wireless LAN},
  pages     = {1--5},
  title     = {A New Full Duplex MAC Protocol to Solve the Asymmetric Transmission Time},
}

@article{sywim,
  author       = {Le, T. N. and Pegatoquet, A. and Berder, O. and Sentieys, O.},
  date         = {2015-12},
  doi          = {10.1109/JSEN.2015.2472566},
  issn         = {1530-437X},
  journaltitle = {IEEE Sensors Journal},
  keywords     = {access protocols;energy conservation;energy harvesting;quality of service;synchronisation;telecommunication power management;wireless sensor networks;battery-powered WSN node;energy neutral operation condition;energy-efficient power manager;multihop wireless sensor network;periodic energy harvesting source;quality of service;synchronized wake-up interval MAC protocol;Batteries;Media Access Protocol;Sensors;Spread spectrum communication;Synchronization;Wireless communication;Wireless sensor networks;Wireless sensor networks;energy harvesting;energy neutral operation;multi-hop communications;power manager},
  number       = {12},
  pages        = {7208--7220},
  title        = {Energy-Efficient Power Manager and MAC Protocol for Multi-Hop Wireless Sensor Networks Powered by Periodic Energy Harvesting Sources},
  volume       = {15},
}

@article{smcmac,
  author       = {Pandit, S. and Singh, G.},
  date         = {2015-05},
  doi          = {10.1109/TVT.2014.2334605},
  issn         = {0018-9545},
  journaltitle = {IEEE Transactions on Vehicular Technology},
  keywords     = {access protocols;cognitive radio;telecommunication control;telecommunication scheduling;SMC-MAC protocol;backoff algorithm;cognitive users;control channel protocol;data transmission;distributed cognitive radio network;medium access control protocol;self-scheduled multichannel cognitive radio MAC;sensing-sharing;throughput enhancement;unutilized licensed channels;Cognitive radio;Data communication;Media Access Protocol;Sensors;Throughput;Backoff algorithm;cognitive radio;contention;medium access control (MAC) protocol;self-scheduled;sensing and sharing;throughput},
  number       = {5},
  pages        = {1991--2000},
  title        = {Backoff Algorithm in Cognitive Radio MAC Protocol for Throughput Enhancement},
  volume       = {64},
}

@inproceedings{echoring,
  author    = {Dombrowski, C. and Gross, J.},
  booktitle = {Proceedings of European Wireless 2015; 21th European Wireless Conference},
  date      = {2015-05},
  keywords  = {},
  pages     = {1--8},
  title     = {EchoRing: A Low-Latency, Reliable Token-Passing MAC Protocol for Wireless Industrial Networks},
}

@article{fdcmac2015b,
  author       = {Tan, L. T. and Le, L. B.},
  date         = {2015},
  doi          = {10.1109/ACCESS.2015.2509449},
  issn         = {2169-3536},
  journaltitle = {IEEE Access},
  keywords     = {access protocols;cognitive radio;interference suppression;radio networks;radio spectrum management;signal detection;FD SUs;FD transceiver;FD transmission modes;FDC-MAC configuration optimization;FDC-MAC protocol;adaptive medium access control protocol;channel contention;full-duplex MAC protocol;full-duplex cognitive radio networks;half-duplex transmission;mathematical model;secondary users;self-interference mitigation;spectrum sensing duration;transmit power level;High definition video;Media Access Protocol;Sensors;Standards;Throughput;White spaces;Asynchronous MAC;full-duplex MAC;full-duplex cognitive radios;full-duplex spectrum sensing;fullduplex spectrum sensing;optimal sensing duration;self-interference control;throughput analysis;throughput maximization},
  pages        = {2715--2729},
  title        = {Design and Optimal Configuration of Full-Duplex MAC Protocol for Cognitive Radio Networks Considering Self-Interference},
  volume       = {3},
}

@article{lcsma,
  author       = {Buratti, C. and Verdone, R.},
  date         = {2016-01},
  doi          = {10.1109/TVT.2015.2391302},
  issn         = {0018-9545},
  journaltitle = {IEEE Transactions on Vehicular Technology},
  keywords     = {access protocols;carrier sense multiple access;wireless sensor networks;L-CSMA;MAC protocol;carrier-sensing multiple access;carrier-sensing phase;medium access control protocol;multihop linear wireless sensor network;packet success probability;protocol overhead;Mathematical model;Media Access Protocol;Multiaccess communication;Relays;Sensors;Throughput;CSMA;MAC protocols;linear networks;mathematical modelling;multihop;wireless sensor networks},
  number       = {1},
  pages        = {251--265},
  title        = {L-CSMA: A MAC Protocol for Multihop Linear Wireless (Sensor) Networks},
  volume       = {65},
}

@inproceedings{cfmac,
  author    = {Sanabria-Russo, L. and Gringoli, F. and Barcelo, J. and Bellalta, B.},
  booktitle = {2015 IEEE International Conference on Communications (ICC)},
  date      = {2015-06},
  doi       = {10.1109/ICC.2015.7248459},
  issn      = {1550-3607},
  keywords  = {access protocols;firmware;wireless LAN;CF-MAC protocol;WLAN;collision-free MAC protocol;contention mechanism;legacy firmware;wireless local area networks;wireless network cards;IEEE 802.11 Standard;Media Access Protocol;Multiaccess communication;Radiation detectors;Schedules;Throughput;Collision-Free;Multiaccess Communication;OpenFWWF;Wireless LAN},
  pages     = {1036--1042},
  title     = {Implementation and experimental evaluation of a Collision-Free MAC protocol for WLANs},
}

@article{cmac2015,
  author       = {Kim, Y. and Lee, M. and Lee, T. J.},
  date         = {2016-08},
  doi          = {10.1109/TVT.2015.2475165},
  issn         = {0018-9545},
  journaltitle = {IEEE Transactions on Vehicular Technology},
  keywords     = {Internet of Things;access protocols;broadcasting;energy harvesting;multi-access systems;multiuser channels;probability;road safety;telecommunication control;telecommunication scheduling;vehicular ad hoc networks;C-MAC protocol;Internet-of-Things devices;RSU;VANET;WAVE;contention-free broadcasting;control messages;coordinated multichannel medium access control protocol;roadside units;safety messages;service channels;vehicle nodes;vehicular ad hoc networks;wireless access in vehicular environments;Broadcasting;Delays;Media Access Protocol;Safety;Vehicles;Vehicular ad hoc networks;Energy harvesting;medium access control (MAC) protocol;safety message;vehicular ad hoc network (VANET);vehicular environment},
  number       = {8},
  pages        = {6508--6517},
  title        = {Coordinated Multichannel MAC Protocol for Vehicular Ad Hoc Networks},
  volume       = {65},
}

@article{adamac,
  abstract     = {With the increasing demands for high-quality health-care services, medical cyber-physical systems over wireless body sensor networks have emerged as a promising solution for vital life signals monitoring. These systems require the communication protocols to be both reliable and real-time in data transmissions. IEEE 802.15.4 can be regarded as the canonical protocols in this area owing to its low-power and low-cost features. However, it falls short of reliability and timeliness guarantees. To address this issue, we propose an adaptive MAC protocol based on IEEE 802.15.4, namely Ada-MAC. The proposed protocol combines schedule-based on time-triggered protocol and contention-based CSMA/CA mechanism. It can not only enable dynamic Guaranteed Time Slots allocation but also provide differentiated services for different nodes according to their data types. The proposed protocol is implemented on the OMNeT++ platform. Extensive simulations are conducted to evaluate the performance of Ada-MAC in comparison with the traditional IEEE 802.15.4 MAC. The results show the superiority of the proposed protocol in terms of reliability and timeliness.},
  author       = {Xia, Feng and Wang, Linqiang and Zhang, Daqiang and He, Daojing and Kong, Xiangjie},
  url          = {https://doi.org/10.1007/s11235-014-9895-2},
  date         = {2015-02-01},
  doi          = {10.1007/s11235-014-9895-2},
  issn         = {1572-9451},
  journaltitle = {Telecommunication Systems},
  number       = {2},
  pages        = {125--138},
  title        = {An adaptive MAC protocol for real-time and reliable communications in medical cyber-physical systems},
  volume       = {58},
}

@article{sdmac,
  author       = {Liu, Y. and Yu, R. and Pan, M. and Zhang, Y. and Xie, S.},
  date         = {2017-02},
  doi          = {10.1109/TVT.2016.2555084},
  issn         = {0018-9545},
  journaltitle = {IEEE Transactions on Vehicular Technology},
  keywords     = {access protocols;cognitive radio;dynamic programming;fading channels;interference suppression;iterative methods;CM2M;SD-MAC;access processes;adaptive sensing;cognitive machine-to-machine networks;cognitive radio technology;diverse communication applications;fading channel scenario;interference reduction;iterative adaptive dynamic programming algorithm;local sensing process;low-power communications;medium access control protocol;network throughput maximization;optimal decision processes;primary systems;spectrum channels;spectrum database-driven MAC protocol;spectrum scarcity;ubiquitous connectivity;Adaptation models;Databases;Fading channels;Media Access Protocol;Sensors;Signal to noise ratio;Cognitive machine-to-machine (CM2M) networks;medium access control (MAC);spectrum database;spectrum sensing},
  number       = {2},
  pages        = {1456--1467},
  title        = {SD-MAC: Spectrum Database-Driven MAC Protocol for Cognitive Machine-to-Machine Networks},
  volume       = {66},
}

@article{iqueuemac,
  author       = {Zhuo, S. and Wang, Z. and Song, Y. Q. and Wang, Z. and Almeida, L.},
  date         = {2016-07},
  doi          = {10.1109/TMC.2015.2473852},
  issn         = {1536-1233},
  journaltitle = {IEEE Transactions on Mobile Computing},
  keywords     = {carrier sense multiple access;queueing theory;resource allocation;synchronisation;telecommunication traffic;time division multiple access;wireless sensor networks;CoSenS;Ri-MAC-MC;SIM32W108 chips;WSN protocols;carrier sense multiple access;contention-based CSMA mechanism;contention-free TDMA mechanism;dynamic slot allocation;hybrid CSMA-TDMA MAC;iQueue-MAC;packet buffering;packet delay;time division multiple access;traffic adaptive multichannel MAC protocol;transmission slots;variable-bursty traffic;wireless sensor networks;Media Access Protocol;Resource management;Routing protocols;Time division multiple access;Wireless sensor networks;CSMA/TDMA;MAC protocol;Wireless sensor networks;multi-channel;queue-length;traffic adaptation},
  number       = {7},
  pages        = {1600--1613},
  title        = {A Traffic Adaptive Multi-Channel MAC Protocol with Dynamic Slot Allocation for WSNs},
  volume       = {15},
}

@inproceedings{mmacda,
  author    = {Dang, Duc Ngoc Minh and Le, Huong Tra and Kang, Hyo Sung and Hong, Choong Seon and Choe, Jongwon},
  booktitle = {2015 International Conference on Information Networking (ICOIN)},
  date      = {2015-01},
  doi       = {10.1109/ICOIN.2015.7057861},
  issn      = {1550-445X},
  keywords  = {ad hoc networks;carrier sense multiple access;channel allocation;directive antennas;omnidirectional antennas;telecommunication traffic;wireless channels;ATIM;CSMA-based access protocol;CSMA/CA;DCF;IEEE 802.11;MMAC-DA;PSM;aggregate throughput;announcement traffic indication message;carrier sense multiple access with collision avoidance;data exchange;data window;distributed coordination function;energy efficiency;flow starvation;multichannel MAC protocol;multiple channel resources;omnidirectional antenna;packet delivery ratio;power saving mechanism;spatial reusability;wireless ad hoc network;wireless channel;Data communication;Directional antennas;Directive antennas;IEEE 802.11 Standards;Media Access Protocol;Receivers;Ad hoc networks;MAC protocol;Multi-channel;directional antennas},
  pages     = {81--86},
  title     = {Multi-channel MAC protocol with Directional Antennas in wireless ad hoc networks},
}

@article{tars,
  author       = {Han, Yu and Fei, Yunsi},
  location     = {New York, NY, USA},
  publisher    = {ACM},
  url          = {http://doi.acm.org/10.1145/3105149},
  date         = {2017-09},
  doi          = {10.1145/3105149},
  issn         = {1550-4859},
  journaltitle = {ACM Trans. Sen. Netw.},
  keywords     = {Medium access control,receiver synchronization,traffic adaptation,underwater sensor networks,utility optimization},
  number       = {4},
  pages        = {27:1--27:25},
  title        = {TARS: A Traffic-Adaptive Receiver-Synchronized MAC Protocol for Underwater Sensor Networks},
  volume       = {13},
}

@article{dact,
  author       = {Tarchi, Daniele and Fantacci, Romano and Marabissi, Dania},
  url          = {http://dx.doi.org/10.1002/ett.2955},
  date         = {2017},
  doi          = {10.1002/ett.2955},
  issn         = {2161-3915},
  journaltitle = {Transactions on Emerging Telecommunications Technologies},
  note         = {e2955 ett.2955},
  number       = {3},
  pages        = {e2955--n/a},
  title        = {An M2M cognitive MAC protocol for overlaid OFDMA environments},
  volume       = {28},
}

@article{csmaeca,
  author       = {Sanabria-Russo, Luis and Barcelo, Jaume and Bellalta, Boris and Gringoli, Francesco},
  location     = {Piscataway, NJ, USA},
  publisher    = {IEEE Press},
  url          = {https://doi.org/10.1109/TNET.2016.2587907},
  date         = {2017-02},
  doi          = {10.1109/TNET.2016.2587907},
  issn         = {1063-6692},
  journaltitle = {IEEE/ACM Trans. Netw.},
  number       = {1},
  pages        = {492--505},
  title        = {A High Efficiency MAC Protocol for WLANs: Providing Fairness in Dense Scenarios},
  volume       = {25},
}

@article{dcdmac,
  abstract     = {Directional communication in wireless sensor networks minimizes interference and thereby increases reliability and throughput of the network. Hence, directional wireless sensor networks (DWSNs) are fastly attracting the interests of researchers and industry experts around the globe. However, in DWSNs the conventional medium access control protocols face some new challenges including the synchronization among the nodes, directional hidden terminal and deafness problems, etc. For taking the advantages of spatial reusability and increased coverage from directional communications, a low duty cycle directional Medium Access control protocol for mobility based DWSNs, termed as DCD-MAC, is developed in this paper. To reduce energy consumption due to idle listening, duty cycling is extensively used in WSNs. In DCD-MAC, each pair of parent and child sensor nodes performs synchronization with each other before data communication. The nodes in the network schedule their time of data transmissions in such a way that the number of collisions occurred during transmissions from multiple nodes is minimized. The sensor nodes are kept active only when the nodes need to communicate with each other. The DCD-MAC exploits localized information of mobile nodes in a distributed manner and thus it gives weighted fair access of transmission slots to the nodes. As a final point, we have studied the performance of our proposed protocol through extensive simulations in NS-3 and the results show that the DCD-MAC gives better reliability, throughput, end-to-end delay, network lifetime and overhead comparing to the related directional MAC protocols.},
  author       = {Nur, Fernaz Narin and Sharmin, Selina and Razzaque, Md. Abdur and Islam, Md. Shariful and Hassan, Mohammad Mehedi},
  url          = {https://doi.org/10.1007/s11277-016-3728-4},
  date         = {2017-10-01},
  doi          = {10.1007/s11277-016-3728-4},
  issn         = {1572-834X},
  journaltitle = {Wireless Personal Communications},
  number       = {4},
  pages        = {5035--5059},
  title        = {A Low Duty Cycle MAC Protocol for Directional Wireless Sensor Networks},
  volume       = {96},
}

@article{lach,
  abstract     = {Using multiple channels in wireless networks improves spatial reuse and reduces collision probability and thus enhances network throughput. Designing a multi-channel MAC protocol is challenging because multi-channel-specific issues such as channel assignment, the multi-channel hidden terminal problem, and the missing receiver problem, must be solved. Most existing multi-channel MAC protocols suffer from either higher hardware cost or poor throughput. Some channel hopping multi-channel protocols achieve pretty good performance in certain situations but fail to adjust their channel hopping mechanisms according to varied traffic loads. In this paper, we propose a load-aware channel hopping MAC protocol (LACH) that solves all the multi-channel-specific problems mentioned above.LACH enables nodes to dynamically adjust their schedules based on their traffic loads. In addition to load awareness, LACH has several other attractive features: (1) Each node is equipped with a single half-duplex transceiver. (2) Each node's initial hopping sequence is generated by its ID. Knowing the neighbor nodes' IDs, a node can calculate its neighbors' initial channel hopping sequences without control packet exchanges. (3) Nodes can be evenly distributed among available channels. Through performance analysis, simulations, and real system implementation, we verify that LACH is a promising protocol suitable for a network with time-varied traffic loads.},
  author       = {Chao, Chih-Min and Tsai, Hsien-Chen and Huang, Chao-Ying},
  url          = {https://doi.org/10.1007/s11276-015-1139-1},
  date         = {2017-01-01},
  doi          = {10.1007/s11276-015-1139-1},
  issn         = {1572-8196},
  journaltitle = {Wireless Networks},
  number       = {1},
  pages        = {89--101},
  title        = {Load-aware channel hopping protocol design for mobile ad hoc networks},
  volume       = {23},
}

@article{ddcmac,
  abstract     = {In this paper, a dynamic cooperative MAC protocol (DDC-MAC) based on cluster network topology is proposed, which has the capability of differentiated service mechanisms and long-range communication. In DDC-MAC, heterogeneous communications are classified according to service types and quality of service (QoS) requirements, i.e., periodic communication mode (PC mode) is extracted with a QoS guarantee for high-frequency periodic information exchange based on adapt-TDMA mechanisms, while other services are classified as being in on-demand communication mode (OC mode), which includes channel contention and access mechanisms based on a multiple priority algorithm. OC mode is embedded into the adapt-TDMA process adaptively, and the two communication modes can work in parallel. Furthermore, adaptive array hybrid antenna systems and cooperative communication with optimal relay are presented, to exploit the opportunity for long-range transmission, while an adaptive channel back-off sequence is deduced, to mitigate packet collision and network congestion. Moreover, we developed an analytical framework to quantify the performance of the DDC-MAC protocol and conducted extensive simulation. Simulation results show that the proposed DDC-MAC protocol enhances network performance in diverse scenarios, and significantly improves network throughput and reduces average delay compared with other MAC protocols.},
  author       = {Gao, Chao and Zeng, Bin and Lu, Jianhua and Zhao, Guorong},
  url          = {http://www.mdpi.com/2224-2708/6/3/14},
  date         = {2017},
  doi          = {10.3390/jsan6030014},
  issn         = {2224-2708},
  journaltitle = {Journal of Sensor and Actuator Networks},
  number       = {3},
  title        = {Dynamic Cooperative MAC Protocol for Navigation Carrier Ad Hoc Networks: A DiffServ-Based Approach},
  volume       = {6},
}

@article{omac2017,
  author       = {Rajandekar, A. and Sikdar, B.},
  date         = {2017},
  doi          = {10.1109/LCOMM.2017.2659725},
  issn         = {1089-7798},
  journaltitle = {IEEE Communications Letters},
  keywords     = {Data communication;IEEE 802.11 Standard;Machine-to-machine communications;Media Access Protocol;Radio frequency;White spaces;IoT;M2M communication;MAC protocols;WiFi;opportunistic communication},
  number       = {99},
  pages        = {1--1},
  title        = {O-MAC: Opportunistic MAC Protocol for M2M Communication in WiFi White Spaces},
  volume       = {PP},
}

@article{eecomac,
  abstract     = {This paper presents an energy-efficient cooperative MAC (EECO-MAC) protocol using power control in mobile ad hoc networks. Cooperative communications improve network performance by taking full advantage of the broadcast nature of wireless channels. The power control technique improves the network lifetime by adjusting the transmission power dynamically. We propose the best partnership selection algorithm, which takes energy consumption into consideration for selection of the optimal cooperative helper to join in the transmission. Through exchanging control packets, the optimal transmission power is allocated for senders to transmit data packets to receivers. In order to enhance energy saving, space--time backoff and time--space backoff algorithms are proposed. Simulation results show that EECO-MAC consumes less energy and prolongs the network lifetime compared to IEEE 802.11 DCF and CoopMAC at the cost of delay. Performance improvement offered by our proposed protocol is apparent in congested networks where nodes have low and limited energy.},
  author       = {Zhang, Xiaoying and Guo, Lei and Anpalagan, Alagan and Khwaja, Ahmed Shaharyar},
  url          = {https://doi.org/10.1007/s11277-016-3580-6},
  date         = {2017-02-01},
  doi          = {10.1007/s11277-016-3580-6},
  issn         = {1572-834X},
  journaltitle = {Wireless Personal Communications},
  number       = {3},
  pages        = {843--861},
  title        = {Performance of Energy-Efficient Cooperative MAC Protocol with Power Backoff in MANETs},
  volume       = {92},
}

@article{prin,
  abstract     = {Wireless sensor networks (WSNs) are used in a variety of applications to sense and transfer information to the centralized node with energy efficiency increasing the network's lifespan. Other factors, such as quality of service (QoS) is also important to improve the performance of the WSNs, by increasing throughput and reducing end-to-end delay. In this paper, we evaluate the importance of QoS in the Medium Access Control (MAC) protocol for WSNs using different metrics and parameters such as energy efficiency, throughput, delay, and the network lifespan. We propose a new QoS MAC protocol, ``PRIority in Node'' (PRIN), using static priority in the source and the intermediate node and priority among the node which is one hop from the sink node to achieve QoS in WSNs. Simulation results are compared with those of the synchronous MAC protocol in terms of QoS parameters to show the improved performance of the proposed MAC protocol.},
  author       = {Subramanian, Ananda Kumar and Paramasivam, Ilango},
  url          = {https://doi.org/10.1007/s11277-016-3581-5},
  date         = {2017-02-01},
  doi          = {10.1007/s11277-016-3581-5},
  issn         = {1572-834X},
  journaltitle = {Wireless Personal Communications},
  number       = {3},
  pages        = {863--881},
  title        = {PRIN: A Priority-Based Energy Efficient MAC Protocol for Wireless Sensor Networks Varying the Sample Inter-Arrival Time},
  volume       = {92},
}

@article{ahmac,
  author       = {Al-Sulaifanie, Adnan Ismail and Biswas, Subir and Khorsheed Al-Sulaifanie, Bayez},
  publisher    = {Hindawi Publishing Corporation},
  date         = {2017},
  doi          = {10.1155/2017/8105954},
  journaltitle = {Journal of Sensors},
  title        = {AH-MAC: Adaptive Hierarchical MAC Protocol for Low-Rate Wireless Sensor Network Applications},
  volume       = {2017},
}

@article{ripple,
  author       = {Cheng, Ray-Guang and Wang, Cun-Yi and Liao, Li-Hung and Yang, Jen-Shun},
  date         = {2006-02},
  doi          = {10.1109/LCOMM.2006.02005},
  issn         = {1089-7798},
  journaltitle = {IEEE Communications Letters},
  keywords     = {access protocols;packet radio networks;radio access networks;random processes;telecommunication congestion control;telecommunication network topology;wireless LAN;wireless channels;802.11 DCF;QoS;Ripple;WMN;decentralized controlled-access approach;error-free wireless channel;maximization;multihop wireless mesh network;packet collision;quality of service;random-access approach;wireless token-passing protocol;Analytical models;Performance analysis;Protection;Quality of service;Relays;Spread spectrum communication;Throughput;Topology;Wireless application protocol;Wireless mesh networks},
  number       = {2},
  pages        = {123--125},
  title        = {Ripple: a wireless token-passing protocol for multi-hop wireless mesh networks},
  volume       = {10},
}

@inproceedings{pcsma,
  author    = {Buratti, C. and Verdone, R.},
  booktitle = {European Wireless 2013; 19th European Wireless Conference},
  date      = {2013-04},
  keywords  = {},
  pages     = {1--8},
  title     = {P-CSMA: A Priority-Based CSMA Protocol for Multi-Hop Linear Wireless Networks},
}