Predictive Coding of Integers with Real-Valued Predictions

Author

Ali, Mohamed ; Murshed, Manzur

Author_Institution

Gippsland Sch. of Inf. Technol., Monash Univ., Churchill, VIC, Australia

fYear

2013

fDate

20-22 March 2013

Firstpage

431

Lastpage

440

Abstract

In this paper, we have extended the Rice-Golomb code so that it can operate at fractional precision to efficiently exploit the real-valued predictions. Coding at infinitesimal precision allows the residuals to be modeled with the Lap lace distribution. Unlike the Rice-Golomb code, which maps equally probable opposite-signed residuals to different integers, the proposed coding scheme is symmetric in the sense that, at infinitesimal precision, it assigns code words of equal length to equally probable residual intervals. The symmetry of both the Lap lace distribution and the coding scheme facilitates the analysis of the proposed coding scheme to determine the average code-length and the optimal value of the associated coding parameter.

Keywords

prediction theory; residue codes; statistical distributions; Laplace distribution; Rice-Golomb code; associated coding parameter; codeword assignment; equally probable residual interval; fractional precision; infinitesimal precision; integer predictive coding; opposite signed residual; real-valued prediction; Data compression; Decoding; Educational institutions; Encoding; Entropy; Predictive coding; Probability distribution; Laplace distribution; Predictive coding; Rice-Golomb code;

fLanguage

English

Publisher

ieee

Conference_Titel

Data Compression Conference (DCC), 2013

Conference_Location

Snowbird, UT

ISSN

1068-0314

Print_ISBN

978-1-4673-6037-1

Type

conf

DOI

10.1109/DCC.2013.51

Filename

6543079