Title :
Direction finding algorithms based on high-order statistics
Author :
Porat, Boaz ; Friedlander, Benjamin
Author_Institution :
Signal Process. Technol. Ltd., Palo Alto, CA, USA
fDate :
9/1/1991 12:00:00 AM
Abstract :
Two direction finding algorithms are presented for nonGaussian signals, which are based on the fourth-order cumulants of the data received by the array. The first algorithm is similar to MUSIC, while the second is asymptotically minimum variance in a certain sense. The first algorithm requires singular value decomposition of the cumulant matrix, while the second is based on nonlinear minimization of a certain cost function. The performance of the minimum variance algorithm can be assessed by analytical means, at least for the case of discrete probability distributions of the source signals and spatially uncorrelated Gaussian noise. The numerical experiments performed seem to confirm the insensitivity of these algorithms to the (Gaussian) noise parameters
Keywords :
signal processing; statistical analysis; array processing; asymptotically minimum variance; cost function; cumulant matrix; direction finding algorithms; discrete probability distributions; fourth-order cumulants; high-order statistics; nonGaussian signals; nonlinear minimization; singular value decomposition; spatially uncorrelated Gaussian noise; Analysis of variance; Cost function; Gaussian noise; Matrix decomposition; Minimization methods; Multiple signal classification; Performance analysis; Signal analysis; Singular value decomposition; Statistics;
Journal_Title :
Signal Processing, IEEE Transactions on
