English

New CRT sequence sets for a collision channel without feedback

Information Theory 2017-07-05 v3 Combinatorics math.IT

Abstract

Protocol sequences are binary and periodic sequences used for deterministic multiple access in a collision channel without feedback. In this paper, we focus on user-irrepressible (UI) protocol sequences that can guarantee a positive individual throughput per sequence period with probability one for a slot-synchronous channel, regardless of the delay offsets among the users. As the sequence period has a fundamental impact on the worst-case channel access delay, a common objective of designing UI sequences is to make the sequence period as short as possible. Consider a communication channel that is shared by MM active users, and assume that each protocol sequence has a constant Hamming weight ww. To attain a better delay performance than previously known UI sequences, this paper presents a CRTm construction of UI sequences with w=M+1w=M+1, which is a variation of the previously known CRT construction. For all non-prime M8M\geq 8, our construction produces the shortest known sequence period and the shortest known worst-case delay of UI sequences. Numerical results show that the new construction enjoys a better average delay performance than the optimal random access scheme and other constructions with the same sequence period, in a variety of traffic conditions. In addition, we derive an asymptotic lower bound on the minimum sequence period for w=M+1w=M+1 if the sequence structure satisfies some technical conditions, called equi-difference, and prove the tightness of this lower bound by using the CRTm construction.

Keywords

Cite

@article{arxiv.1611.03012,
  title  = {New CRT sequence sets for a collision channel without feedback},
  author = {Yijin Zhang and Yuan-Hsun Lo and Kenneth W. Shum and Wing Shing Wong},
  journal= {arXiv preprint arXiv:1611.03012},
  year   = {2017}
}

Comments

21 pages, 1 figure, 4 tables

R2 v1 2026-06-22T16:47:21.165Z