Title :
Nonsymmetric sources and optimum signal selection
Author :
Emami, Shahriar ; Miller, Scott L.
Author_Institution :
Land Mobile Products Sector, Motorola, Plantation, FL, USA
fDate :
4/1/1996 12:00:00 AM
Abstract :
There are some applications where the information source is nonsymmetric. Here, it is shown that differential pulse code modulation (DPCM) of video signals results in a nonsymmetric source. Previous works on 2-D signal design have been focused around equally likely sources. In this paper, an iterative algorithm for minimum error signal design subject to average power (or peak power) constraint is presented. Then, design of minimum cost signal sets is addressed, and application to a DPCM system for picture transmission is developed. Comparisons are made between the nonsymmetric and symmetric signal design in one case and between minimum error signal design and minimum cost signal selection in the other case, for the transmission of DPCM-coded signals. It is seen that nonsymmetric signal design gains significant improvements over the equally likely signal selection when the channel is noisy. Minimum cost signal design also demonstrated some improvement relative to minimum error signal selection over noisy channels
Keywords :
differential pulse code modulation; facsimile; iterative methods; modulation coding; noise; telecommunication channels; video coding; visual communication; 2D signal design; DPCM; DPCM coded signals; DPCM system; average power constraint; bandlimited channels; differential pulse code modulation; information source; iterative algorithm; minimum cost signal selection; minimum cost signal sets; minimum error signal design; noisy channels; nonsymmetric signal design; nonsymmetric sources; optimum signal selection; peak power constraint; picture transmission; symmetric signal design; video signals; AWGN; Additive white noise; Constellation diagram; Cost function; Error analysis; Gaussian noise; Modulation coding; Pulse modulation; Quadrature amplitude modulation; Signal design;
Journal_Title :
Communications, IEEE Transactions on
