Title :
Index assignment for two-channel quantization
Author :
Balogh, József ; Csirik, János A.
Author_Institution :
Math. Dept., Ohio State Univ., Columbus, OH, USA
Abstract :
This paper concerns the design of a multiple description scalar quantization (MDSQ) system for two identical channels for an unbounded discrete information source. This translates to the combinatorial problem of finding an arrangement of the integers into the infinite plane square grid so that each row and each column contains exactly N numbers, such that the difference between any two numbers in the same row (or column) is at most d, with d to be minimized for a given N. The best previous lower and upper bounds on the lowest d were N2/3+O(N) and N2/2+O(N). We give new lower and upper bounds, both of the form 3N2/8+O(N). We also consider minimizing the maximal variance in any row or column and show that it must be at least N4/60+O(N3), and that it does not have to be more than 3N4/160+O(N3).
Keywords :
combinatorial mathematics; quantisation (signal); telecommunication channels; MDSQ system; combinatorial problem; index assignment; infinite plane square grid; multiple description scalar quantization; two-channel quantization; unbounded discrete information source; Bandwidth; Decoding; Degradation; Labeling; Mathematics; Quantization; Source coding; Speech coding; Upper bound; Video coding; Index assignment; optimal labeling; square grid; variance;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2004.836676
