Title
Asymptotic Error Free Partitioning Over Noisy Boolean Multiaccess Channels
Document Type
Article
Publication Date
11-1-2015
Abstract
In this paper, we consider the problem of partitioning active users in a manner that facilitates multi-access without collision. The setting is of a noisy, synchronous, Boolean, and multi-access channel, where K active users (out of a total of N users) seek channel access. A solution to the partition problem places each of the N users in one of K groups (or blocks), such that no two active nodes are in the same block. We consider a simple, but non-trivial and illustrative, case of K=2 active users and study the number of steps T used to solve the partition problem. By random coding and a suboptimal decoding scheme, we show that for any T ≥ (C1 + ξ1)log N, where C1 and ξ1 are positive constants (independent of N), and where ξ1 can be arbitrary small, the partition problem can be solved with error probability Pe(N) → 0, for large N. Under the same scheme, we also bound T from the other direction, establishing that, for any T ≤ (C2 - ξ2)log N, the error probability Pe(N) → 1 for large N; again, C2 and ξ2 are constants, and ξ2 can be arbitrarily small. These bounds on the number of steps are lower than the tight achievable lower bound in terms of T ≥ (Cg + ξ)log N for group testing (in which all active users are identified, rather than just partitioned). Thus, partitioning may prove to be a more efficient approach for multi-access than group testing.
Publication Source (Journal or Book title)
IEEE Transactions on Information Theory
First Page
6168
Last Page
6181
Recommended Citation
Wu, S., Wei, S., Wang, Y., Vaidyanathan, R., & Yuan, J. (2015). Asymptotic Error Free Partitioning Over Noisy Boolean Multiaccess Channels. IEEE Transactions on Information Theory, 61 (11), 6168-6181. https://doi.org/10.1109/TIT.2015.2477399