On the capacity of infinite population multiple access protocols

Author

Molle, Mart L.

Volume

Issue

fYear

1982

fDate

5/1/1982 12:00:00 AM

Firstpage

396

Lastpage

401

Abstract

We present bounds on the maximum channel utilization (with finite average delay) of synchronous multiple access communications protocols serving an infinite population of homogeneous stations. Messages arrive to the system as a series of independent Bernoulli trials in discrete time, with probability p of an arrival at each arrival point (the Poisson limit is explicitly included) and are then randomly distributed among the stations. Pippenger showed that the channel utilization cannot exceed $\\xi_{p}$ , where $\\xi_{l}=1$ and $\\lim_{p \\rightarrow 0} \\xi_{p} \\approx 0.744$ . Using a "helpful genie" argument, we find the exact capacity for all $p \\geq 0.568$ (where we find optimal protocols that obey first-come first-served); for smaller values of p, we present an improved upper bound that decreases monotonically to $\\approx 0.6731$ in the Poisson limit as $p \\rightarrow 0$ .

Keywords

Multiple-access communications; Access protocols; Capacity planning; Communication channels; Computer science; Delay; Helium; History; Markov processes; State-space methods; Upper bound;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.1982.1056509

Filename

1056509

Link To Document

https://search.isc.ac/dl/search/defaultta.aspx?DTC=49&DC=934828