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-rw-r--r--data/attribution.bib96
-rw-r--r--data/db.yaml59
2 files changed, 98 insertions, 57 deletions
diff --git a/data/attribution.bib b/data/attribution.bib
new file mode 100644
index 0000000..40b284d
--- /dev/null
+++ b/data/attribution.bib
@@ -0,0 +1,96 @@
+@article{suriyachai2012,
+ author = {Suriyachai, P. and Roedig, U. and Scott, A.},
+ doi = {10.1109/SURV.2011.020211.00036},
+ issn = {1553-877X},
+ journaltitle = {Communications Surveys Tutorials, IEEE},
+ keywords = {access protocols;wireless sensor networks;MAC protocols;WSN protocols;data transport;medium access control protocol;mission-critical applications;wireless sensor networks;Delay;Media Access Protocol;Mission critical systems;Monitoring;Reliability;Wireless sensor networks;Medium Access Control Protocols;Mission-Critical Applications;Quality of Service;Safety-Critical Applications;Survey;Time-Critical Applications;Wireless Sensor Networks;Wireless Sensor and Actuator Networks},
+ month = {Second},
+ number = {2},
+ pages = {240-264},
+ title = {A Survey of MAC Protocols for Mission-Critical Applications in Wireless Sensor Networks},
+ volume = {14},
+ year = {2012},
+}
+
+@article{gummalla2000,
+ author = {Gummalla, Ajay Chandra V. and Limb, John O.},
+ doi = {10.1109/COMST.2000.5340799},
+ file = {gummalla2000.pdf},
+ issn = {1553-877X},
+ journaltitle = {Communications Surveys Tutorials, IEEE},
+ keywords = {Access protocols;Bandwidth;Communication cables;Media Access Protocol;Planets;Quality of service;Telephony;Wireless application protocol;Wireless networks;Wireless sensor networks},
+ month = {Second},
+ number = {2},
+ pages = {2-15},
+ title = {Wireless medium access control protocols},
+ volume = {3},
+ year = {2000},
+}
+
+@article{jurdak2004,
+ author = {Jurdak, R. and Lopes, C.V. and Baldi, P.},
+ doi = {10.1109/COMST.2004.5342231},
+ file = {jurdak2004.pdf},
+ issn = {1553-877X},
+ journaltitle = {Communications Surveys Tutorials, IEEE},
+ keywords = {access protocols;ad hoc networks;telecommunication control;telecommunication network management;telecommunication network topology;telecommunication traffic;MAC layer protocols;channel separation;medium access control protocols;traffic load;transmission initiation;wireless ad hoc networks;wireless communications;wireless network control;wireless network management;Access protocols;Ad hoc networks;Communication system control;Media Access Protocol;Mobile ad hoc networks;Network topology;Proposals;Wireless application protocol;Wireless communication;Wireless networks},
+ month = {First},
+ number = {1},
+ pages = {2-16},
+ title = {A survey, classification and comparative analysis of medium access control protocols for ad hoc networks},
+ volume = {6},
+ year = {2004},
+}
+
+@article{demirkol2006,
+ author = {Demirkol, I. and Ersoy, C. and Alagoz, F.},
+ doi = {10.1109/MCOM.2006.1632658},
+ file = {demirkol2006.pdf},
+ issn = {0163-6804},
+ journaltitle = {Communications Magazine, IEEE},
+ keywords = {access protocols;wireless sensor networks;MAC protocols;medium-access protocol;wireless sensor networks;Base stations;Broadcasting;Delay;Event detection;Media Access Protocol;Sensor phenomena and characterization;Sensor systems;Sleep;Wireless application protocol;Wireless sensor networks},
+ month = {April},
+ number = {4},
+ pages = {115-121},
+ title = {MAC protocols for wireless sensor networks: a survey},
+ volume = {44},
+ year = {2006},
+}
+
+@article{mo2008,
+ author = {Jeonghoon Mo and Hoi-Sheung So and Walrand, J.},
+ doi = {10.1109/TMC.2007.1075},
+ file = {mo2008.pdf},
+ issn = {1536-1233},
+ journaltitle = {Mobile Computing, IEEE Transactions on},
+ keywords = {access protocols;delays;wireless LAN;common hopping protocol;dedicated control channel protocol;multichannel MAC protocols;parallel rendezvous protocols;protocol delay;protocol throughput;split phase protocol;802.11;Multi-Channel MAC;Performance},
+ month = {Jan},
+ number = {1},
+ pages = {50-65},
+ title = {Comparison of Multichannel MAC Protocols},
+ volume = {7},
+ year = {2008},
+}
+
+@article{kumar2014,
+ author = {Kumar Somappa, A.A. and Øvsthus, K. and Kristensen, L.M.},
+ doi = {10.1109/SURV.2014.012114.00058},
+ file = {kumar2014.pdf},
+ issn = {1553-877X},
+ journaltitle = {Communications Surveys Tutorials, IEEE},
+ keywords = {protocols;telecommunication security;wireless sensor networks;WSN requirements;industrial automation;industrial equipment;industrial perspective;industrial plants;industry specific protocols;medium access control;representative protocols;security function;wireless sensor networks;Monitoring;Protocols;Quality of service;Routing;Standards;Wireless communication;Wireless sensor networks;Industrial automation;Medium Access Control;Routing;Security;Standards;Transport;Wireless Sensor and Actuator Networks},
+ month = {Third},
+ number = {3},
+ pages = {1391-1412},
+ title = {An Industrial Perspective on Wireless Sensor Networks – A Survey of Requirements, Protocols, and Challenges},
+ volume = {16},
+ year = {2014},
+}
+
+@online{macsoup,
+ author = {Langendoen, K.},
+ title = {The MAC Alphabet Soup},
+ url = {http://www.st.ewi.tudelft.nl/~koen/MACsoup/index.php},
+ year = {2010},
+}
+
diff --git a/data/db.yaml b/data/db.yaml
index b4765b9..051b101 100644
--- a/data/db.yaml
+++ b/data/db.yaml
@@ -4,7 +4,6 @@
# Available features
# ==================
-
features:
# XXX ?
access:
@@ -125,62 +124,8 @@ features:
other.qos:
name: QoS
-# todo
-# ^^^^
-# suriyachai2012:
-# Performance Objectives: Energy (no, n/a, duty-cycling), delay (node-to-node/end-to-end decrease/probalistic guarantee/guarantee), reliability (no, node-to-node/end-to-end increase/guarantee)
-# Assumptions: Deployment, Topology, Network Pattern, Cross-Layer Support, Transceiver
-
-# gummalla:
-# Architecture: Distributed (Collision avoidance, random access), Centralized (random access, guaranteed access, hybrid access)
-
-# jurdak2004:
-# Channels (single, multiple), Topology (single-hop, multi-hop, clustered, centralized), Transmission initiation (sender/receiver), Power efficient, Traffic load/scalabiliy, Range
-
-# demirkol2006: time sync needed, comm pattern support (all, convergecast), type (csma, np-csma, tdma/csma, csma/ca, tdma) adaptivity (good, weak)
-
-# mo2008 (only multichannel mac): dedicated control channel, common hopping, split phase, parallel rendezvous
-
-# kumar2014: fixed, demand, hybrid assignment, random access; design
-# considerations: node deployment (topology?), control packet overhead, time
-# synchronization (local/global), slot scheduling, duty-cycling, multi-channel,
-# cross-layer support, channel utilization, node priority, collision avoidance
-# Main classes are: energy-efficient, qos-aware, real-time
-
-# several: hard- vs soft real-time
-
-# pip: coordinated (tdma)/uncoordinated (tdma), centralized/distributed,
-# single/multichannel, connection-oriented/-less
-
-# old
-# ^^^
-
-# Slot assignment strategies
-# --------------------------
-# fixed: fixed (time/freq/…) slot assignment
-# slot-reservation: nodes reserve slots for data-transmissions. While
-# the actual data-transfer is collision-free the reservation is not
-# token-passing:
-# polling:
-
-# Topology
-# --------
-# centralized
-# cluster
-# single-hop: mac layer relies on higher layers to transmit packet to out-of-range stations
-# multi-hop
-
-# rtscts: rts/cts/data/ack slot reservation mechanism
-
-# distributed: Distributed access control
-
-# backoff: Uses exponential backoff in case of collisions
-# carriersense: Station senses medium before sending
-
-# synchronized: A synchronized clock is required
-
-# fixed-slotsize: You name it.
-
+# Algorithms/Protocols
+# ====================
algos:
alohap:
name: Pure ALOHA