Title :
Optimal nonuniform signaling for Gaussian channels
Author :
Kschischang, Frank R. ; Pasupathy, Subbarayan
Author_Institution :
Dept. of Electr. Eng., Toronto Univ., Ont., Canada
fDate :
5/1/1993 12:00:00 AM
Abstract :
Variable-rate data transmission schemes in which constellation points are selected according to a nonuniform probability distribution are studied. When the criterion is one of minimizing the average transmitted energy for a given average bit rate, the best possible distribution with which to select constellations points is a Maxwell-Boltzmann distribution. In principle, when constellation points are selected according to a Maxwell-Boltzmann distribution, the ultimate shaping gain (πe/6 or 1.53 dB) can be achieved in any dimension. Nonuniform signaling schemes can be designed by mapping simple variable-length prefix codes onto the constellation. Using the Huffman procedure, prefix codes can be designed that approach the optimal performance. These schemes provide a fixed-rate primary channel and a variable-rate secondary channel, and are easily incorporated into standard lattice-type coded modulation schemes
Keywords :
Huffman codes; data communication systems; information theory; statistical analysis; telecommunication channels; telecommunication signalling; Gaussian channels; Huffman procedure; Maxwell-Boltzmann distribution; constellation points; fixed-rate primary channel; lattice-type coded modulation schemes; nonuniform probability distribution; optimal nonuniform signalling; ultimate shaping gain; variable-length prefix codes; variable-rate data transmission schemes; variable-rate secondary channel; Amplitude modulation; Bit rate; Constellation diagram; Data communication; Entropy; Gaussian channels; Modulation coding; Probability distribution; Signal design; Transmitters;
Journal_Title :
Information Theory, IEEE Transactions on
