Title :
Stability properties of slotted Aloha with multipacket reception capability
Author :
Ghez, Sylvie ; Verdu, Sergio ; Schwartz, Stuart C.
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., NJ, USA
fDate :
7/1/1988 12:00:00 AM
Abstract :
The stability of the Aloha random-access algorithm in an infinite-user slotted channel with multipacket-reception capability is considered. This channel is a generalization of the usual collision channel, in that it allows the correct reception of one or more packets involved in a collision. The number of successfully received packets in each slot is modeled as a random variable which depends exclusively on the number of simultaneously attempted transmissions. This general model includes as special cases channels with capture, noise, and code-division multiplexing. It is shown by drift analysis that the channel backlog Markov chain is ergodic if the packet-arrival rate is less than the expected number of packets successfully received in a collision of n as n goes to infinity. The properties of the backlog in the nonergodicity region are examined
Keywords :
Markov processes; data communication systems; multi-access systems; packet switching; protocols; stability; Markov chain; channel backlog; code-division multiplexing; multipacket reception capability; packet switching; packet-arrival rate; random-access; slotted Aloha; stability; Access protocols; Code division multiplexing; Distributed control; H infinity control; Multiaccess communication; Power system modeling; Random variables; Road accidents; Stability; Throughput;
Journal_Title :
Automatic Control, IEEE Transactions on
