Title :
Robust sequential m-interval approximation detectors with Q-dependent sampling
Author :
Voudouri, Evriclea ; Kurz, Ludwik
Author_Institution :
Manhattan Coll., Riverdale, NY, USA
fDate :
31 Oct-2 Nov 1988
Abstract :
The theory of a robust sequential detection scheme is extended to include operation with Q-dependent samples of unspecified dependence. The detectors are designed to exhibit a near-optimum performance for nominal noise distributions and maintain high efficiency to changing noise environments by adapting their optimum nonlinearity using an m-interval polynomial approximation (MIPA) of it. The performance of a sequential MIPA detector with Q-dependent sampling is analyzed in detail for two important classes of detection problems: the shift-of-mean alternatives which finds applications in many data communications and image processing problems, and the change-of-scale alternative, which finds applications in processing signal data or spectral estimation data from multisensor arrays
Keywords :
polynomials; signal detection; signal processing; Q-dependent sampling; change of scale detection; change-of-scale alternative; m-interval polynomial approximation; multisensor arrays; near-optimum performance; optimum nonlinearity; robust sequential detection; sequential m-interval approximation detectors; shift of mean detection; signal processing; spectral estimation; Data communication; Detectors; Image analysis; Image sampling; Noise robustness; Performance analysis; Polynomials; Signal analysis; Signal sampling; Working environment noise;
Conference_Titel :
OCEANS '88. A Partnership of Marine Interests. Proceedings
Conference_Location :
Baltimore, MD
DOI :
10.1109/OCEANS.1988.23581
