Title :
On the performance degradation from one-bit quantized detection
Author :
Willett, Peter ; Swaszek, Peter F.
Author_Institution :
Connecticut Univ., Storrs, CT, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
It is common signal detection practice to base tests on quantized data and frequently, as in decentralized detection, this quantization is extreme: to a single bit. As to the accompanying degradation in performance, certain cases (such as that of an additive signal model and an efficacy measure) are well-understood. However, there has been little treatment of more general cases. In this correspondence we explore the possible performance loss from two perspectives. We examine the Chernoff exponent and discover a nontrivial lower bound on the relative efficiency of an optimized one-bit quantized detector as compared to unquantized. We then examine the case of finite sample size and discover a family of nontrivial bounds. These are upper bounds on the probability of detection for an unquantized system given a specified quantized performance, given that both systems operate at the same false-alarm rate
Keywords :
correlation theory; quantisation (signal); signal detection; signal sampling; Chernoff exponent; additive signal model; decentralized detection; efficacy measure; false-alarm rate; finite sample size; nontrivial lower bound; one-bit quantized detection; performance degradation; probability of detection; relative efficiency; sign correlator; signal detection; upper bounds; Additives; Decision making; Degradation; Detectors; Performance loss; Quantization; Signal detection; Statistical analysis; Testing; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
