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Fiedler Linearizations for Higher Order State-Space Systems


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1 Department of Mathematics, Sikkim University, Sikkim-737102, India
     

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Consider a higher order state space system and associated system matrix S(?). The aim of this paper is to linearize the higher order system preserving system characteristics. That is, we derive a linearized state space system of the given higher order system preserving system characteristics(e.g., controllability, observability, various zeros and transfer function) for analysis of higher order systems which gives the solution for higher order system. We study recovery of zero directions of higher order state space system from those of the linearizations. That is, the zero directions of the transfer functions associated to higher order state space system are recovered from the eigenvectors of the Fiedler pencils without performing any arithmetic operations.


Keywords

Higher Order System, System Matrix, Transfer Function, Zero, Zero Direction, Matrix Polynomial, Eigenvalue, Eigenvector, Matrix Pencil, Linearization, Fiedler Pencil.
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  • Fiedler Linearizations for Higher Order State-Space Systems

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Authors

Namita Behera
Department of Mathematics, Sikkim University, Sikkim-737102, India

Abstract


Consider a higher order state space system and associated system matrix S(?). The aim of this paper is to linearize the higher order system preserving system characteristics. That is, we derive a linearized state space system of the given higher order system preserving system characteristics(e.g., controllability, observability, various zeros and transfer function) for analysis of higher order systems which gives the solution for higher order system. We study recovery of zero directions of higher order state space system from those of the linearizations. That is, the zero directions of the transfer functions associated to higher order state space system are recovered from the eigenvectors of the Fiedler pencils without performing any arithmetic operations.


Keywords


Higher Order System, System Matrix, Transfer Function, Zero, Zero Direction, Matrix Polynomial, Eigenvalue, Eigenvector, Matrix Pencil, Linearization, Fiedler Pencil.

References





DOI: https://doi.org/10.18311/jims%2F2022%2F25773