Journal ArticleDOI
Spatial spectrum estimation in a coherent signal environment using an array in motion
Fred Haber,Michael D. Zoltowski +1 more
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In this paper, the effect of estimating the spatial correlations while the array is moving is studied in terms of the decorrelation it produces, the change it causes in the eigenvalues of the correlation matrix, and the improvements obtained in the measured spectrum.Abstract:
Spatial spectrum estimation utilizing an array in motion is here investigated for dealing with coherent arrivals in a multiple signal environment. The effect of estimating the spatial correlations while the array is moving is studied in terms of the decorrelation it produces, the change it causes in the eigenvalues of the correlation matrix, and the improvements obtained in the measured spectrum. Cases of both fixed and varying angle of arrival are investigated, The former arises with distant sources and will, with a sufficiently long estimation interval, emulate uncorrelated sources and given correspondingly sharp spectra. The latter arises with nearby sources and will allow them to be distinguished but will be attended by spectral shift and broadening, and loss of resolution. It is shown that meaningful estimates of the arrival angles can nevertheless be made. Specific illustrations are worked out using a seven-element, sparse, nonuniformly spaced linear array utilizing the well-known superresolution spectral estimators-the maximum likelihood (ML) method, the method of linear prediction (LP), and the method of multiple signal classification (MUSIC).read more
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Journal ArticleDOI
Forward/backward spatial smoothing techniques for coherent signal identification
S.U. Pillai,B.H. Kwon +1 more
TL;DR: A spatial smoothing scheme is further investigated and it is shown that by making use of a set of forward and complex conjugated backward subarrays simultaneously, it is always possible to estimate any K directions of arrival using at most 3K/2 sensor elements.
Journal ArticleDOI
Real-time frequency and 2-D angle estimation with sub-Nyquist spatio-temporal sampling
TL;DR: An algorithm is presented for real-time estimation of the frequency and azimuth and elevation angles of each signal incident on an airborne antenna array system over a very wide frequency band (2-18 GHz) commensurate with electronic signal warfare.
Journal ArticleDOI
Line-of-sight angle of arrival estimation in the outdoor multipath environment
Richard Klukas,Michel Fattouche +1 more
TL;DR: Angle of arrival (AOA) estimation utilizing the MUltiple Signal Identification and Classification (MUSIC) algorithm is investigated for land vehicle location systems and a "virtual" antenna array is used to overcome problems inherent to MUSIC when operating in a highly correlated signal environment.
Journal ArticleDOI
Performance analysis of MUSIC-type high resolution estimators for direction finding in correlated and coherent scenes
S.U. Pillai,B.H. Kwon +1 more
TL;DR: An asymptotic analysis is presented of a class of high-resolution estimators for resolving correlated and coherent plane waves in noise and the variance of the conventional MUSIC estimator along the true arrival angles is shown to be zero within a first-order approximation.
Journal ArticleDOI
Applications of cumulants to array processing. IV. Direction finding in coherent signals case
TL;DR: This work presents a subspace-based direction finding method for coherent signal environments using an antenna array that is capable of resolving more signals than a comparable second-order statistics-based subspace method and is applicable to a larger class of arrays.
References
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Journal ArticleDOI
Multiple emitter location and signal parameter estimation
TL;DR: In this article, a description of the multiple signal classification (MUSIC) algorithm, which provides asymptotically unbiased estimates of 1) number of incident wavefronts present; 2) directions of arrival (DOA) (or emitter locations); 3) strengths and cross correlations among the incident waveforms; 4) noise/interference strength.
Journal ArticleDOI
Adaptive beamforming for coherent signals and interference
Tie-Jun Shan,Thomas Kailath +1 more
TL;DR: A new adaptive array beam-former able to work well even when the desired signal and the interference are coherent, and the results of simulations support the theoretical predictions.
Journal ArticleDOI
The application of spectral estimation methods to bearing estimation problems
TL;DR: In this paper, the equivalence between the problem of determining the bearing of a radiating source with an array of sensors and estimating the spectrum of a signal is demonstrated, and the spectral estimation algorithms are derived within the context of array processing using an algebraic approach.
Journal ArticleDOI
Optimality of high resolution array processing using the eigensystem approach
G. Bienvenu,L. Kopp +1 more
TL;DR: In this article, a covariance matrix test for equality of the smallest eigenvalues is presented for source detection, and a best fit method and a test of orthogonality between the "smallest" eigenvectors and the "source" vectors are discussed.
Journal ArticleDOI
Spectral analysis and adaptive array superresolution techniques
TL;DR: In this paper, the authors compared the performance of the Burg maximum entropy method and the maximum likelihood method with their similar nonlinear adaptive array antenna counterparts, which consist of the generic sidelobe canceller and directional gain constraint techniques, and provided a summary of the resolution performance of several adaptive algorithms against multiple-incoherent sources.
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