Title :
Rényi Information Dimension: Fundamental Limits of Almost Lossless Analog Compression
Author :
Wu, Yihong ; Verdú, Sergio
Author_Institution :
Dept. of Electr. Eng., Princeton Univ., Princeton, NJ, USA
Abstract :
In Shannon theory, lossless source coding deals with the optimal compression of discrete sources. Compressed sensing is a lossless coding strategy for analog sources by means of multiplication by real-valued matrices. In this paper we study almost lossless analog compression for analog memoryless sources in an information-theoretic framework, in which the compressor or decompressor is constrained by various regularity conditions, in particular linearity of the compressor and Lipschitz continuity of the decompressor. The fundamental limit is shown to the information dimension proposed by Rényi in 1959.
Keywords :
information theory; memoryless systems; source coding; Lipschitz continuity; Renyi information dimension; Shannon theory; analog memoryless sources; lossless analog compression; lossless source coding; optimal compression; Codes; Compressed sensing; Data compression; Entropy; Error probability; Helium; Linearity; Redundancy; Source coding; Vectors; Analog compression; Rényi information dimension; Shannon theory; compressed sensing; information measures; source coding;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2010.2050803
