On an Alternative Parameterization of the Solutions of the Partial Realization Problem |
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Authors: | Tony Van Gestel Marc Van Barel Bart De Moor |
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Affiliation: | (1) Dept. of Electrical Engineering – ESAT/SISTA, K.U. Leuven, Kard. Mercierlaan 94, B-3001 Leuven, Belgium. e-mail;(2) Dept. of Computer Acience – NALAG, K. U. Leuven, Celestijnenlaan 200A, B-3001 Leuven, Belgium. e-mail;(3) Dept. of Electrical Engineering –, ESAT/SISTA, K.U. Leuven, Kard. Mercierlaan 94, B-3001 Leuven, Belgium. e-mail |
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Abstract: | The solutions of the partial realization problem have to satisfy a finite number of interpolation conditions at . The minimal degree of an interpolating deterministic system is called the algebraic degree or McMillan degree of the partial covariance sequence and is easy to compute. The solutions of the partial stochastic realization problem have to satisfy the same interpolation conditions and have to fulfill a positive realness constraint. The minimal degree of a stochastic realization is called the positive degree. In the literature, solutions of the partial realization problem are parameterized by the Kimura–Georgiou parameterization. Solutions of the partial stochastic realization problem are then obtained by checking the positive realness constraint for the interpolating solutions of the corresponding partial realization problem. In this paper, an alternative parameterization is developed for the solutions of the partial realization problems. Both the solutions of the partial and partial stochastic realization problem are analyzed in this parameterization, while the main concerns are the minimality and the uniqueness of the solutions. Based on the structure of the parameterization, a lower bound for the positive degree is derived. |
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Keywords: | rational covariance extension minimal partial realization partial stochastic realization stochastic modeling |
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