1 research outputs found
Opportunistic Cooperative Channel Access in Distributed Wireless Networks with Decode-and-Forward Relays
This letter studies distributed opportunistic channel access in a wireless
network with decode-and-forward relays. All the sources use channel contention
to get transmission opportunity. If a source wins the contention, the channel
state information in the first-hop channel (from the source to its relay) is
estimated, and a decision is made for the winner source to either give up the
transmission opportunity and let all sources start a new contention, or
transmit to the relay. Once the relay gets the traffic, it may have a sequence
of probings of the second-hop channel (from the relay to the destination).
After each probing, if the second-hop channel is good enough, the relay
transmits to the destination and completes the transmission process of the
source; otherwise, the relay decides either to give up and let all sources
start a new contention, or to continue to probe the second-hop channel. The
optimal decision strategies for the two hops are derived in this letter. The
first-hop strategy is a pure-threshold strategy, i.e., when the first-hop
channel signal-to-noise ratio (SNR) is more than a threshold, the winner source
should transmit to the relay, and subsequently the second-hop strategy should
let the relay keep probing the second-hop channel until a good enough
second-hop channel is observed. Simulation results show that our scheme is
beneficial when the second-hop channels have larger average SNR