Dimensionally reduced Krylov subspace model reduction for large scale systems

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摘要

This paper introduces a new mathematical approach that combines the concepts of dimensional reduction and Krylov subspace techniques for use in the model reduction problem for large-scale systems. Krylov subspace methods for model reduction uses the Arnoldi algorithm in order to construct the bases for controllability, observability, and oblique subspaces of state space realization. The newly developed algorithm uses principal component analysis along with Krylov oblique projection model reduction technique to provide computationally efficient and inexpensive model reduction method. To demonstrate the effectiveness of the proposed hybrid scheme the residual error, forward error and stability response analyses have been performed for various randomly generated large-scale systems.

论文关键词:Krylov subspace,Oblique projection,Principal component analysis,State space models

论文评审过程:Available online 3 July 2007.

论文官网地址:https://doi.org/10.1016/j.amc.2006.09.056