To improve the performance of an array of hydrophones used to locate an acoustic source, an approach is proposed for hydrophone placement which minimizes a conventional bearing or range variance bound averaged over the random deviation of sensor positions. The Cramer-Rao lower bounds are used on localization error covariances to distribute the sensors in an effective manner for line and towed arrays. The source localization problem for M sensors is formulated. A lower bound on the estimate of the localization parameters from the measurements is examined. This is then applied to a simple line array and to a towed array for various levels of sensor position uncertainty. The results are utilized to distribute the sensors in approximately optimal fashion. >
[1]
Peter M. Schultheiss,et al.
Optimum range and bearing estimation with randomly perturbed arrays
,
1980
.
[2]
G. Carter.
Variance bounds for passively locating an acoustic source with a symmetric line array
,
1977
.
[3]
Peter M. Schultheiss,et al.
Optimum Passive Bearing Estimation in a Spatially Incoherent Noise Environment
,
1969
.
[4]
Peter M. Schultheiss,et al.
Optimum and sub-optimum source localization with sensors subject to random motion
,
1983
.
[5]
Lawrence Chen-Yim Ng,et al.
OPTIMUM MULTISENSOR, MULTITARGET LOCALIZATION AND TRACKING
,
1983
.