Title :
Synchronization recovery of variable-length codes
Author :
Zhou, Guangcai ; Zhang, Zhen
Author_Institution :
Dept. of Electr. Eng. Syst., Univ. of Southern California, Los Angeles, CA, USA
fDate :
1/1/2002 12:00:00 AM
Abstract :
The synchronization recovery property of variable-length (VL) codes has been extensively studied. In the paper, the mean error propagation length (MEPL) and the variance of error propagation length (VEPL), which are the secondary performance criteria of a VL code, are introduced to measure the synchronization recovery capability of a VL code. For the same probability distribution, there exist many different VL codes which have the same redundancy as the Huffman code but quite different MEPLs and VEPLs. To find one of the VL codes which has the minimum MEPL is a very difficult problem. We present two design algorithms for finding minimum-redundancy VL codes with short MEPL and VEPL. These two algorithms are simple and have the property that the codewords are assigned one by one. The efficiency of the algorithms are tested extensively by comparing the algorithms with known construction methods available in literature. Actually, VL codes obtained by the two algorithms outperform almost all codes available
Keywords :
probability; synchronisation; variable length codes; Huffman code; codewords; mean error propagation length; minimum-redundancy prefix-free codes; minimum-redundancy variable-length codes; probability distribution; redundancy; synchronization recovery; variance of error propagation length; Algorithm design and analysis; Delay; Electrostatic discharge; Frequency synchronization; Length measurement; Probability distribution; Redundancy; Robustness; Testing; Time measurement;
Journal_Title :
Information Theory, IEEE Transactions on
