Title :
Signal detection in compound-Gaussian noise: Neyman-Pearson versus GLRT
Author :
Conte, E. ; De Maio, A. ; Galdi, C.
Author_Institution :
Dipt. di Ingegneria Elettronica e delle Telecomunicazioni, Naples Univ., Italy
Abstract :
We dealt with the detection of signal in presence of compound-Gaussian noise. First of all, we derived the optimum Neyman-Pearson detector for a known signal to establish the limiting performance. Since the NP detector does not implement a uniformly most powerful (UMP) test, we adopt an alternative approach, namely the generalized likelihood ratio test (GLRT): the result is a completely canonical structure. Nevertheless since the implementation of such a processor requires averaging infinitely many projections of the received waveform, we also presented a sub-optimum scheme, retaining most of the characteristics, especially the CFARness, of the ideal detector. The analysis of the above detectors shows that both of them largely outperform the conventional square-law receiver and that the sub-optimum processor is practically equivalent to the GLRT receiver
Keywords :
Gaussian noise; maximum likelihood estimation; signal detection; CFAR; GLRT receiver; canonical structure; compound-Gaussian noise; constant false alarm rate; generalized likelihood ratio test; ideal detector; limiting performance; maximum likelihood estimates; optimum Neyman-Pearson detector; received waveform; signal detection; square-law receiver; sub-optimum processor; sub-optimum scheme; uniformly most powerful test; Acoustic noise; Acoustic scattering; Detectors; Electromagnetic interference; Electromagnetic scattering; Random processes; Signal detection; Signal processing; Testing; Working environment noise;
Conference_Titel :
Signal Processing and Its Applications, 1999. ISSPA '99. Proceedings of the Fifth International Symposium on
Conference_Location :
Brisbane, Qld.
Print_ISBN :
1-86435-451-8
DOI :
10.1109/ISSPA.1999.818147
