Title :
Robust quantization of memoryless sources using dispersive FIR filters
Author :
Popat, Kris ; Zeger, Kenneth
Author_Institution :
Media Lab., MIT, Cambridge, MA, USA
fDate :
11/1/1992 12:00:00 AM
Abstract :
An approach to quantizing discrete-time memoryless sources is presented. An important feature is that its performance is largely insensitive to errors in modeling the input PDF. The method involves changing the amplitude distribution of the source to be approximately Gaussian by all-pass filtering, then applying a Lloyd-Max quantizer designed for a Gaussian source. After quantization, the samples are passed through another all-pass filter, which is an approximate inverse of the first filter. The mean-square error (MSE) for the overall process is roughly equal to the quantization MSE for the intermediate Gaussian signal, independent of the source statistics. For some sources, this is actually an improvement over direct, correct-model Lloyd-Max quantization. The cost of this technique is some delay due to filtering
Keywords :
all-pass filters; data compression; digital filters; filtering and prediction theory; information theory; FIR filters; Gaussian source; Lloyd-Max quantizer; MSE; all-pass filtering; discrete-time memoryless sources; dispersive filters; intermediate Gaussian signal; mean-square error; robust quantisation; Costs; Dispersion; Error analysis; Filtering; Finite impulse response filter; Laplace equations; Quantization; Rate-distortion; Robustness; Signal processing;
Journal_Title :
Communications, IEEE Transactions on
