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author | Lars-Dominik Braun <lars@6xq.net> | 2015-04-28 10:24:08 +0200 |
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committer | Lars-Dominik Braun <lars@6xq.net> | 2015-04-28 10:24:08 +0200 |
commit | be936e130800294866d3f7596b34a9324046d782 (patch) | |
tree | 1ecc4e6ca64e8ce4e4ec59364e2b0caf35bd7b99 /data | |
parent | a2e851d112b01f6483fcdf8d103a361ead55f924 (diff) | |
download | comatose-be936e130800294866d3f7596b34a9324046d782.tar.gz comatose-be936e130800294866d3f7596b34a9324046d782.tar.bz2 comatose-be936e130800294866d3f7596b34a9324046d782.zip |
A few more protocols
Diffstat (limited to 'data')
-rw-r--r-- | data/db.bib | 55 | ||||
-rw-r--r-- | data/db.yaml | 23 |
2 files changed, 77 insertions, 1 deletions
diff --git a/data/db.bib b/data/db.bib index 781eee0..7993131 100644 --- a/data/db.bib +++ b/data/db.bib @@ -2051,3 +2051,58 @@ year = {2004}, } +@inproceedings{camac, + author = {Bin Liu and Zhisheng Yan and Chang Wen Chen}, + booktitle = {e-Health Networking Applications and Services (Healthcom), 2011 13th IEEE International Conference on}, + 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}, + month = {June}, + pages = {213-216}, + title = {CA-MAC: A Hybrid context-aware MAC protocol for wireless body area networks}, + year = {2011}, +} + +@article{uctdma, + acmid = {1210670}, + articleno = {1}, + author = {Tiwari, Ankit and Ballal, Prasanna and Lewis, Frank L.}, + doi = {10.1145/1210669.1210670}, + issn = {1550-4859}, + issue_date = {March 2007}, + journaltitle = {ACM Trans. Sen. Netw.}, + keywords = {Condition-based maintenance, TDMA, medium access control (MAC)}, + location = {New York, NY, USA}, + month = {03}, + number = {1}, + publisher = {ACM}, + title = {Energy-efficient Wireless Sensor Network Design and Implementation for Condition-based Maintenance}, + url = {http://doi.acm.org/10.1145/1210669.1210670}, + volume = {3}, + year = {2007}, +} + +@article{flammini2009, + author = {Flammini, A. and Marioli, D. and Sisinni, E. and Taroni, A.}, + 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)}, + month = {March}, + number = {3}, + pages = {747-755}, + title = {Design and Implementation of a Wireless Fieldbus for Plastic Machineries}, + volume = {56}, + year = {2009}, +} + +@inproceedings{flipmac, + author = {Carlson, D. and Terzis, A.}, + booktitle = {Distributed Computing in Sensor Systems and Workshops (DCOSS), 2011 International Conference on}, + 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}, + month = {June}, + pages = {1-8}, + title = {Flip-MAC: A density-adaptive contention-reduction protocol for efficient any-to-one communication}, + year = {2011}, +} + diff --git a/data/db.yaml b/data/db.yaml index 60bcd39..9b9d66a 100644 --- a/data/db.yaml +++ b/data/db.yaml @@ -694,10 +694,17 @@ algos: longname: Resilent Round Robin name: RRR ref: [rrr] - # XXX not complete + description: > + High data-rate sensor networks, scheduled contention with binary + search tree resolution collision resolution (BSTCR), + collision-detection by receiver/base-station, dynamic time slot + assignment possible, no global time synchronization required features: application.wsn: energy.dutycycling: + initiation.receiver: + access.polling: # ? + time.discrete: pwmac: name: PW-MAC longname: Predictive-Wakeup MAC @@ -989,4 +996,18 @@ algos: time.discrete: access.schedule: reliability.retransmission: # ? + camac: + name: CA-MAC + longname: Context-aware MAC + ref: [camac] + uctdma: + name: UC-TDMA + longname: User configured TDMA + ref: [uctdma] + flammini: + name: Flammini’s proposal + ref: [flammini2009] + flipmac: + name: Flip-MAC + ref: [flipmac] |