Title :
Channel capacity for a given decoding metric
Author :
Csiszár, Imre ; Narayan, Prakash
Author_Institution :
Math. Inst., Hungarian Acad. of Sci., Budapest, Hungary
fDate :
1/1/1995 12:00:00 AM
Abstract :
For discrete memoryless channels {W: X→Y} we consider decoders, possibly suboptimal, which minimize a metric defined additively by a given function d(x, y)⩾0. The largest rate achievable by codes with such a decoder is called the d-capacity Cd (W). The choice d(x, y)=0 if and only if (iff) W(y|x)>0 makes C d(W) equal to the “zero undetected error” or “erasures-only” capacity Ceo(W). The graph-theoretic concepts of Shannon capacity (1956, 1974) and Sperner capacity are also special cases of d-capacity, viz. for a noiseless channel with a suitable {0, 1}-valued function d. We show that the lower bound on d-capacity given previously by Csiszar and Korner (1980), and Hui (1983), is not tight in general, but Cd(W)>0 iff this bound is positive. The “product space” improvement of the lower bound is considered,and a “product space characterization” of Ceo(W) is obtained. We also determine the erasures-only (e.o.) capacity of a deterministic arbitrarily varying channel defined by a bipartite graph, and show that it equals capacity. We conclude with a list of challenging open problems
Keywords :
channel capacity; codes; decoding; encoding; graph theory; Shannon capacity; Sperner capacity; bipartite graph; block coding; channel capacity; d-capacity; decoders; decoding metric; deterministic arbitrarily varying channel; discrete memoryless channels; erasures-only capacity; graph theory; lower bound; noiseless channel; positive bound; product space characterization; zero undetected error; Bipartite graph; Block codes; Channel capacity; Code standards; Conferences; Councils; Decoding; Information theory; Memoryless systems; Mutual information;
Journal_Title :
Information Theory, IEEE Transactions on
