Using 2:1 Shannon mapping for joint source-channel coding

Author

Hekland, Fredrik ; Øien, Geir E. ; Ramstad, Tor A.

Author_Institution

Dept. of Electron. & Telecommun., Norwegian Univ. of Sci. & Technol., Trondheim, Norway

fYear

2005

fDate

29-31 March 2005

Firstpage

223

Lastpage

232

Abstract

The Archimedes´ spiral can be used as a 2:1 bandwidth reducing mapping in a joint source-channel coding (JSCC) system. The combined point of two iid Gaussian sources (the source space) is mapped, or approximated, onto a double Archimedes´ spiral (the codebook), and the squared angle from the origin to the mapped point is transmitted as an analogue channel symbol (the channel space), e.g. PAM. It is shown that the total distortion of this JSCC system is minimised when the distortion contributions from the approximation noise and channel noise are equal. The given system produces a channel input distribution close to a Laplace probability density function (pdf) instead of the optimal Gaussian pdf. The loss when using this mismatched pdf is shown to be approximately equal to the relative entropy of the two pdf.

Keywords

Gaussian distribution; channel capacity; combined source-channel coding; entropy codes; rate distortion theory; 2:1 Shannon mapping; Archimedes spiral; Laplace probability density function; PAM; analogue channel symbol; approximation noise; bandwidth reducing mapping; channel input distribution; channel noise; channel space; codebook; distortion minimisation; iid Gaussian sources; joint source-channel coding; pdf; relative entropy; Bandwidth; Channel coding; Communication systems; Delay; Entropy; Performance analysis; Performance loss; Probability density function; Space technology; Spirals;

fLanguage

English

Publisher

ieee

Conference_Titel

Data Compression Conference, 2005. Proceedings. DCC 2005

ISSN

1068-0314

Print_ISBN

0-7695-2309-9

Type

conf

DOI

10.1109/DCC.2005.92

Filename

1402183