14,080 research outputs found
Throughput, Bit-Cost, Network State Information: Tradeoffs in Cooperative CSMA Protocols
In wireless local area networks, spatially varying channel conditions result
in a severe performance discrepancy between different nodes in the uplink,
depending on their position. Both throughput and energy expense are affected.
Cooperative protocols were proposed to mitigate these discrepancies. However,
additional network state information (NSI) from other nodes is needed to enable
cooperation. The aim of this work is to assess how NSI and the degree of
cooperation affect throughput and energy expenses. To this end, a CSMA protocol
called fairMAC is defined, which allows to adjust the amount of NSI at the
nodes and the degree of cooperation among the nodes in a distributed manner. By
analyzing the data obtained by Monte Carlo simulations with varying protocol
parameters for fairMAC, two fundamental tradeoffs are identified: First, more
cooperation leads to higher throughput, but also increases energy expenses.
Second, using more than one helper increases throughput and decreases energy
expenses, however, more NSI has to be acquired by the nodes in the network. The
obtained insights are used to increase the lifetime of a network. While full
cooperation shortens the lifetime compared to no cooperation at all, lifetime
can be increased by over 25% with partial cooperation.Comment: Some typos in v1 were corrected, to be presented at ISWCS 2010 in
York, United Kingdo
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