Title :
An algorithm for near-optimal placement of sensor elements
Author :
Pearson, David ; Pillai, S. Unnikrishna ; Lee, Youngjik
Author_Institution :
Dept. of Comput. Sci., Cornell Univ., Ithaca, NY, USA
fDate :
11/1/1990 12:00:00 AM
Abstract :
An important question in array design is that of where to place the elements of a sparse array for optimal performance in terms of its ability to detect and resolve a greater number of sources than conventionally possible. In particular, it has been shown that when sensor elements are arranged in the minimum redundancy fashion, by performing an augmentation technique on the covariances obtained from the array outputs, an M element array can be made to estimate the directions of arrival of as many as M(M-1)/2 uncorrelated sources unambiguously. Constructive procedures are developed to evaluate integer locations for an array of given sensors that span a prescribed distance, such that any missing integer is expressible as the difference of two sensor locations. New upper bounds for the ratio of the square of the minimum number of elements to the spanning distance are also established
Keywords :
signal detection; signal processing; array design; array processing; augmentation technique; covariances; direction of arrival estimation; minimum redundancy fashion; near-optimal placement; optimal performance; sensor elements; spanning distance; upper bounds; Algorithm design and analysis; Computer science; Costs; Direction of arrival estimation; Layout; Radar applications; Sensor arrays; Sonar applications; Spaceborne radar; Upper bound;
Journal_Title :
Information Theory, IEEE Transactions on
