Revision as of 21:43, 18 May 2006 edit Iseetho (talk \| contribs) 22 edits No edit summary ← Previous edit		Revision as of 21:47, 18 May 2006 edit undo Iseetho (talk \| contribs) 22 edits →Achievability for discrete memoryless channels Next edit →
Line 93: :::<math>\le \epsilon + 2^{-n(I(X;Y)-R-3\epsilon)}</math> We can observe that as n goes to infinity, ~~as long as~~if <math>R < I(X;Y)</math> for the channel, the probability of error will go to 0. Finally, given that the average codebook is shown to be "good" we know that there exists a codebook whose performance is better than the average, and so satisfies our need for arbitrarily low error probability communicating across the noisy channel. ==== Converse for discrete memoryless channels====

Noisy-channel coding theorem: Difference between revisions