论文信息 - A Discussion of various approaches to the linear-system identification problem

A Discussion of various approaches to the linear-system identification problem

This paper deals with the pole zero identification of a linear system from a measured input-output record. One objective is to show that the pencil-of-function method minimizes a weighted version of the Kalman equation error. It follows that the pencil-of-function method is capable of yielding robust estimates for poles located in a given region of the complex s plane. The second objective of this paper is to illustrate that identical sets of equations arise in three supposedly different analytical techniques for obtaining the impulse response of a system. The techniques investigated are 1) the least squares technique based on the discrete Wiener-Hopf equation, 2) Pisarenko's eigenvalue method, and 3) Jain's pencil-of-function method. The proof of equivalence is valid only for the noise-free case when the system order is known. Instead of using the conventional differential equation formulation, equivalence is shown with the integral form utilized in the pencil-of-function method.

[1] T. Sarkar,et al. Approximation by a Sum of Complex Exponentials Utilizing the Pencil of Function Method , 1983 .

[2] K. Steiglitz. On the simultaneous estimation of poles and zeros in speech analysis , 1977 .

[3] V. Jain. Filter analysis by use of pencil of functions: Part II , 1974 .

[4] S. Lee,et al. Reviews and abstracts - Investigation of electromagnetic coupling through single or multiple apertures into cylindrical structures , 1979, IEEE Antennas and Propagation Society Newsletter.

[5] J. Makhoul,et al. Linear prediction: A tutorial review , 1975, Proceedings of the IEEE.

[6] Tapan K. Sarkar,et al. A discussion of various approaches to the identification/approximation problem , 1982 .

[7] Claude Guéguen,et al. Factorial linear modelling, algorithms and applications , 1980, ICASSP.

[8] V. Pisarenko. The Retrieval of Harmonics from a Covariance Function , 1973 .

[9] Tapan K. Sarkar,et al. Suboptimal approximation/identification of transient waveforms from electromagnetic systems by pencil-of-function method , 1980 .

[10] T. Sarkar,et al. Rational modeling by pencil-of-functions method , 1981, ICASSP.