Title :
Lattice vector quantization of generalized Gaussian sources
Author :
Chen, Feng ; Gao, Zheng ; Villasenor, John
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
Many important sources of data including sub-band image and speech coefficients are highly peaked and can be well-modeled by the family of generalized Gaussian (GG) PDFs parameterized by a shape parameter ν. We present here algorithms for defining and quantizing to a Z lattice in which the boundary is optimized to the characteristics of GG sources, and show that these techniques lead to high performance and low complexity for bit rates and dimensions that are of interest in a number of practical coding applications. We derive an analytical description of the granular and overload distortion valid for low and moderate bit rates, and also provide a description of quantizer performance in the limit of high rate and dimension
Keywords :
Gaussian processes; computational complexity; lattice theory; rate distortion theory; source coding; vector quantisation; PDFs; Z lattice; algorithms; bit rate; complexity; generalized Gaussian sources; granular distortion; lattice vector quantization; overload distortion; quantizer performance; shape parameter; speech coefficients; sub-band image coefficients; Bit rate; Image coding; Image reconstruction; Laplace equations; Lattices; Performance analysis; Rate-distortion; Shape; Speech; Vector quantization;
Journal_Title :
Information Theory, IEEE Transactions on
