Title :
Time-delay estimation via optimizing highly oscillatory cost functions
Author :
Wu, Rendiao ; Li, Jian
Author_Institution :
Dept. of Electr. & Comput. Eng., Florida Univ., Gainesville, FL, USA
fDate :
7/1/1998 12:00:00 AM
Abstract :
In sonar and many other applications, time-delay estimation is an important problem. When bandpass probe signals are used, the correlation function between the received and the known transmitted signals oscillates near the carrier frequency of the transmitted signal. In this case, many existing time-delay estimation algorithms perform poorly due to converging to local optimum points. In this paper, two efficient algorithms, Hybrid-WRELAX and EXIP-WRELAX, are proposed to deal with the above problem. They are relaxation-based global minimizers of a highly oscillatory nonlinear least-squares cost function. Both algorithms are shown to achieve the Cramer-Rao bound and require only a sequence of weighted Fourier transforms
Keywords :
array signal processing; correlation theory; delays; fast Fourier transforms; frequency-domain analysis; invariance; iterative methods; least squares approximations; multipath channels; optimisation; parameter estimation; smoothing methods; sonar signal processing; Cramer-Rao bound; EXIP-WRELAX; Hybrid-WRELAX; active sonar; bandpass probe signals; carrier frequency; closely spaced multipaths; correlation function; data model; efficient algorithms; known transmitted signals; optimizing highly oscillatory cost functions; oscillatory nonlinear least-squares cost function; parameter estimation; received signals; relaxation-based global minimizers; sequence of weighted Fourier transforms; time-delay estimation; underwater acoustic signal processing; Amplitude estimation; Cost function; Fourier transforms; Frequency; Matched filters; Maximum likelihood estimation; Probes; Sensor arrays; Signal processing algorithms; Sonar applications;
Journal_Title :
Oceanic Engineering, IEEE Journal of
