TY - GEN
T1 - Transmission Control for Stability of Aloha Networks with Multiple Transmitter-Receiver Pairs
AU - Yang, Yunshan
AU - Dai, Lin
PY - 2024
Y1 - 2024
N2 - Slotted Aloha has been widely adopted in various communication systems, while its stability performance has long been observed as being sensitive to the setting of transmission probabilities. For stability analysis of Aloha networks with multiple transmitter-receiver (T-R) pairs, the focus of previous studies has been placed on characterization of the maximum input rate of T-R pairs, below which the network can be stabilized under any given topology. With a fixed and identical transmission probability for all T-R pairs, nevertheless, network stability is often found to be unachievable, as part of transmitters would become unstable regardless of how small the traffic input rate is. As we will demonstrate in this paper, to stabilize the whole network, transmission probabilities of T-R pairs should be properly adjusted according to their traffic input rates and locations. Specifically, by establishing the fixed-point equations of the steady-state probabilities of successful transmissions of Head-of-Line (HOL) packets, the service rates of transmitters' queues can be obtained, based on which the operating region of transmission probabilities for achieving stability can further be characterized. Simulation results corroborate that all the T-R pairs can be stabilized by choosing transmission probabilities from the region, which highlights the importance of proper transmission control based on the traffic input rates and network topology for Aloha networks. © 2024 IEEE.
AB - Slotted Aloha has been widely adopted in various communication systems, while its stability performance has long been observed as being sensitive to the setting of transmission probabilities. For stability analysis of Aloha networks with multiple transmitter-receiver (T-R) pairs, the focus of previous studies has been placed on characterization of the maximum input rate of T-R pairs, below which the network can be stabilized under any given topology. With a fixed and identical transmission probability for all T-R pairs, nevertheless, network stability is often found to be unachievable, as part of transmitters would become unstable regardless of how small the traffic input rate is. As we will demonstrate in this paper, to stabilize the whole network, transmission probabilities of T-R pairs should be properly adjusted according to their traffic input rates and locations. Specifically, by establishing the fixed-point equations of the steady-state probabilities of successful transmissions of Head-of-Line (HOL) packets, the service rates of transmitters' queues can be obtained, based on which the operating region of transmission probabilities for achieving stability can further be characterized. Simulation results corroborate that all the T-R pairs can be stabilized by choosing transmission probabilities from the region, which highlights the importance of proper transmission control based on the traffic input rates and network topology for Aloha networks. © 2024 IEEE.
KW - ad-hoc networks
KW - Aloha
KW - multiple transmitter-receiver pairs
KW - random access
KW - stability
KW - transmission control
UR - https://www.scopus.com/pages/publications/85202874729
UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85202874729&origin=recordpage
U2 - 10.1109/ICC51166.2024.10622549
DO - 10.1109/ICC51166.2024.10622549
M3 - RGC 32 - Refereed conference paper (with host publication)
SN - 9781728190556
T3 - IEEE International Conference on Communications
SP - 5485
EP - 5490
BT - ICC 2024 - IEEE International Conference on Communications
PB - IEEE
T2 - 59th IEEE International Conference on Communications (ICC 2024)
Y2 - 9 June 2024 through 13 June 2024
ER -