Communication over Finite-Chain-Ring Matrix Channels

Abstract

Though network coding is traditionally performed over finite fields, recent work on nested-lattice-based network coding suggests that, by allowing network coding over certain finite rings, more efficient physical-layer network coding schemes can be constructed. This paper considers the problem of communication over a finite-ring matrix channel Y = AX + BE, where X is the channel input, Y is the channel output, E is random error, and A and B are random transfer matrices. Tight capacity results are obtained and simple polynomial-complexity capacity-achieving coding schemes are provided under the assumption that A is uniform over all full-rank matrices and BE is uniform over all rank-t matrices, extending the work of Silva, Kschischang and K\"otter (2010), who handled the case of finite fields. This extension is based on several new results, which may be of independent interest, that generalize concepts and methods from matrices over finite fields to matrices over finite chain rings.