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A Study on Signal Parameters Estimation via Nonlinear Minimization
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 Title & Authors
A Study on Signal Parameters Estimation via Nonlinear Minimization
Jeong, Jung-Sik;
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The problem for parameters estimation of the received signals impinging on array sensors has long been of great research Interest in a great variety of applications, such as radar, sonar, and land mobile communications systems. Conventional subspace-based algorithms, such as MUSIC and ESPRIT, require an extensive computation of inverse matrix and eigen-decomposition In this paper, we propose a new parameters estimation algorithm via nonlinear minimization, which is simplified computationally and estimates signal parameters simultaneously.
Parameter estimation;Angle of Arrival;Radar signal processing;Array sensors;Nonlinear minimization;
 Cited by
Bard, Y. (1974), Nonlinear Parameter Estimation, pp. 51-53, Academic Press, Inc., New York

Cottle, R.W and G.B.Dantzig (1968), Complementary Pivot Theory of Mathematical Programming, Linear Algebra & Appl

D'assumpcao, H. A. (1980), 'Some New Signal Processors for Arrays of Sensors,' IEEE Trans. on Information Theory, Vol. IT-26, No.4, pp. 441-453 crossref(new window)

Godara, L. C. (1997), 'Applications of antenna arrays to mobile communications, Part II : Beamforming and Direction of Arrival Considerations,' Proc. of IEEE, Vol. 85, No.8

Schmidt, R. O. (1986), 'Multiple Emitter Location and Signal Parameter Estimation,' IEEE Trans. on Antennas and Propagation, Vol. AP-34, No.3, pp.276-280 crossref(new window)

Roy, R. and Kailath, T. (1989), 'ESPRIT estimation of signal parameters via rotational invariance techniques,' IEEE Trans. Acoust. Speech & Signal Process., Vo1.37, No.7, pp. 984-995 crossref(new window)

Titus, K.Y. La, H.Leung, and J.Litva (1994), 'Artificial neural network for AOA estimation in a multipath environment over the sea,' IEEE Journal of Oceanic Engineering, VoI.19, No.4