Title :
Complexity-constrained trellis quantizers
Author :
Larsen, Mark F. ; Frost, Richard L.
Author_Institution :
Dept. of Electr. & Comput. Eng., Brigham Young Univ., Provo, UT, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
A reasonable measure of quantizer complexity is the expected number of quanta per input sample for which distortion is computed. Given this measure, a rate-distortion-complexity theory is obtained by extending earlier work in alphabet-constrained rate-distortion theory. Numerical results show that operation on the alphabet-constrained rate-distortion bound can be obtained with a complexity of two. Furthermore, Lloyd-Max conditions are shown to describe the minimum of a slightly constrained version of the rate-distortion-complexity problem. Complexity-constrained design methods are applied first to trellis-coded quantizers, where they are shown to reduce arithmetic operations by at least 25%. They are then used to develop model-based trellis quantizers, the trellises of which are derived from a Markov model of the source. Simulation results confirm that excellent performance can be obtained with modest complexity
Keywords :
Markov processes; computational complexity; quantisation (signal); rate distortion theory; trellis codes; Lloyd-Max conditions; Markov model; alphabet constrained rate distortion theory; arithmetic operations reduction; complexity constrained design methods; complexity-constrained trellis quantizers; model based trellis quantizers; performance; quantizer complexity; rate distortion complexity theory; simulation results; trellis coded quantizers; Arithmetic; Computational complexity; Computational modeling; Data compression; Design methodology; Distortion measurement; Laboratories; Mutual information; Rate-distortion; Source coding;
Journal_Title :
Information Theory, IEEE Transactions on
