Title :
Rate loss in distributed functional source coding
Author :
Sun, J.Z. ; Goyal, Vivek K.
Author_Institution :
Res. Lab. of Electron., Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
For point-to-point and distributed communication of continuous sources, high-resolution quantization theory provides an achievable rate-distortion trade-off that is simple to compute and motivates practical compression architectures. Moreover, high-resolution analysis gives good inner bounds for the Shannon rate-distortion region when a more general characterization is difficult. In this paper, we analyze the sum-rate gap between coded nonuniform scalar quantization and the Shannon rate- distortion region for a system that requires fidelity in a computation applied to the source variables. We find that the loss can be as low as 0.255 bits/sample, which has previously been observed in the point-to-point setting, and it is achieved using a simple architecture of nonuniform quantization followed by Slepian-Wolf coding.
Keywords :
quantisation (signal); rate distortion theory; source coding; Shannon rate-distortion region; Slepian-Wolf coding; coded nonuniform scalar quantization; compression architectures; continuous sources high-resolution quantization theory; distributed communication; distributed functional source coding; high-resolution analysis; inner bounds; nonuniform quantization architecture; point-to-point communication; rate loss; source variables; sum-rate gap; Channel coding; Distortion measurement; Entropy; Quantization (signal); Source coding;
Conference_Titel :
Information Theory Proceedings (ISIT), 2013 IEEE International Symposium on
Conference_Location :
Istanbul
DOI :
10.1109/ISIT.2013.6620649
