Title :
On optimal permutation codes
Author :
Goyal, Vivek K. ; Savari, Serap A. ; Wang, Wei
Author_Institution :
Digital Fountain, Fremont, CA, USA
fDate :
11/1/2001 12:00:00 AM
Abstract :
Permutation codes are vector quantizers whose codewords are related by permutations and, in one variant, sign changes. Asymptotically, as the vector dimension grows, optimal Variant I permutation code design is identical to optimal entropy-constrained scalar quantizer (ECSQ) design. However, contradicting intuition and previously published assertions, there are finite block length permutation codes that perform better than the best ones with asymptotically large length; thus, there are Variant I permutation codes whose performances cannot be matched by any ECSQ. Along similar lines, a new asymptotic relation between Variant I and Variant II permutation codes is established but again demonstrated to not necessarily predict the performances of short codes. Simple expressions for permutation code performance are found for memoryless uniform and Laplacian sources. The uniform source yields the aforementioned counterexamples
Keywords :
entropy; memoryless systems; optimisation; vector quantisation; Variant II permutation code; asymptotically large length code; codewords; finite block length permutation codes; memoryless Laplacian source; memoryless uniform source; optimal Variant I permutation code design; optimal entropy-constrained scalar quantizer; optimal permutation codes; permutation code performance; short codes; vector dimension; vector quantizers; Additive white noise; Computer science; Distortion measurement; H infinity control; Information theory; Laplace equations; Modulation coding; Nearest neighbor searches; Source coding; Vector quantization;
Journal_Title :
Information Theory, IEEE Transactions on
