Title :
Dissipativity Enforcement via Perturbation of Para-Hermitian Pencils
Author :
Brull, T. ; Schroder, C.
Author_Institution :
Dept. of Math., Tech. Univ. Berlin, Berlin, Germany
Abstract :
Dissipativity is an important property of individual systems that guarantees a stable interconnected system. However, due to errors in the modeling process weakly non-dissipative models may be constructed. This paper introduces an enhanced method to perturb a non-dissipative LTI system in order to enforce dissipativity using spectral perturbation results for para-Hermitian pencils. Compared to earlier algorithms the new method is applicable to a wider class of problems, it utilizes a simpler framework, and employs a larger class of allowable perturbations resulting in smaller perturbations. Moreover, system stability can be enforced as well. Numerical examples are provided to show the effectiveness of the new approach.
Keywords :
Hermitian matrices; linear systems; perturbation techniques; stability; time-varying systems; LTI control systems; dissipativity enforcement; linear time-invariant systems; nondissipative LTI system; nondissipative models; para-Hermitian matrices; para-Hermitian pencil perturbation; spectral perturbation; stable interconnected system; system stability; Eigenvalues and eigenfunctions; Polynomials; Power measurement; Symmetric matrices; Trajectory; Voltage measurement; Behavioral approach; dissipativity; eigenvalue perturbation; linear system; para-Hermitian matrices; passivity;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2012.2215731
