Title :
Focusing filters for wide-band direction finding
Author :
Sivanand, S. ; Yang, Jar-Ferr ; Kaveh, M.
Author_Institution :
Dept. of Electr. Eng., Minnesota Univ., Minneapolis, MN, USA
fDate :
2/1/1991 12:00:00 AM
Abstract :
A time-domain equivalent of the coherent signal-subspace transformations (CST) is established for wideband direction finding in a possible multipath environment using general arrays. Time-domain equivalents of focusing are derived based on the least squared error approach for general transformations, and the Taylor series expansion approach for closed-form transformations. The preprocessor is realized by a multichannel digital finite impulse response filter. For diagonal transformations, the problem reduces to implementing different delays at each sensor, which in turn leads to computational simplicity. Various tapped delay line filters for realizing an arbitrary delay are proposed and compared. Simulation results reveal that low-order filter structures in the time domain achieve similar performance to the frequency domain approach, even at detection and resolution thresholds
Keywords :
filtering and prediction theory; signal processing; time-domain synthesis; CST; FIR filter; Taylor series expansion; arbitrary delay; array processing; closed-form transformations; coherent signal-subspace transformations; computational simplicity; detection threshold; diagonal transformations; focusing filters; frequency domain; general arrays; general transformations; least squared error approach; low-order filter structures; multichannel digital finite impulse response filter; multipath environment; preprocessor; resolution thresholds; signal processing; tapped delay line filters; time-domain equivalent; wide-band direction finding; Delay lines; Finite impulse response filter; Frequency domain analysis; Frequency estimation; Magnetic separation; Narrowband; Sensor arrays; Signal processing; Taylor series; Wideband;
Journal_Title :
Signal Processing, IEEE Transactions on
