Title :
The empirical distribution of good codes
Author :
Shamai, Shlomo ; Verdú, Sergio
Author_Institution :
Dept. of Electr. Eng., Technion-Israel Inst. of Technol., Haifa, Israel
fDate :
5/1/1997 12:00:00 AM
Abstract :
Let the kth-order empirical distribution of a code be defined as the proportion of k-strings anywhere in the codebook equal to every given k-string. We show that for any fixed k, the kth-order empirical distribution of any good code (i.e., a code approaching capacity with vanishing probability of error) converges in the sense of divergence to the set of input distributions that maximize the input/output mutual information of k channel uses. This statement is proved for discrete memoryless channels as well as a large class of channels with memory. If k grows logarithmically (or faster) with blocklength, the result no longer holds for certain good codes, whereas for other good codes, the result can be shown for k growing as fast as a certain fraction of blocklength
Keywords :
Gaussian channels; channel capacity; convergence; discrete systems; error correction codes; error statistics; memoryless systems; blocklength; capacity; codebook; discrete memoryless channels; divergence; good codes; input distributions; input/output mutual information; k-strings; kth-order empirical distribution; probability; Capacity planning; Channel capacity; Entropy; Error analysis; Error correction codes; Gaussian channels; Information theory; Memoryless systems; Mutual information; Statistical distributions;
Journal_Title :
Information Theory, IEEE Transactions on
