Entropy (Dec 2016)

Entropy-Constrained Scalar Quantization with a Lossy-Compressed Bit

  • Melanie F. Pradier,
  • Pablo M. Olmos,
  • Fernando Perez-Cruz

DOI
https://doi.org/10.3390/e18120449
Journal volume & issue
Vol. 18, no. 12
p. 449

Abstract

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We consider the compression of a continuous real-valued source X using scalar quantizers and average squared error distortion D. Using lossless compression of the quantizer’s output, Gish and Pierce showed that uniform quantizing yields the smallest output entropy in the limit D → 0 , resulting in a rate penalty of 0.255 bits/sample above the Shannon Lower Bound (SLB). We present a scalar quantization scheme named lossy-bit entropy-constrained scalar quantization (Lb-ECSQ) that is able to reduce the D → 0 gap to SLB to 0.251 bits/sample by combining both lossless and binary lossy compression of the quantizer’s output. We also study the low-resolution regime and show that Lb-ECSQ significantly outperforms ECSQ in the case of 1-bit quantization.

Keywords