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Kybernetika 37(4):505-520, 2001.

Infinite-Dimensional LMI Approach to Analysis and Synthesis for Linear Time-Delay Systems.

Kojiro Ikeda, Takehito Azuma and Kenko Uchida


Abstract:

This paper considers an analysis and synthesis problem of controllers for linear time-delay systems in the form of delay-dependent memory state feedback, and develops an Linear Matrix Inequality (LMI) approach. First, we present an existence condition and an explicit formula of controllers, which guarantee a prescribed level of $L^2$ gain of closed loop systems, in terms of infinite-dimensional LMIs. This result is rather general in the sense that it covers, as special cases, some known results for the cases of delay-independent/dependent and memoryless/memory controllers, while the infinity dimensionality of the LMIs makes the result difficult to apply. Second, we introduce a technique to reduce the infinite-dimensional LMIs to a finite number of LMIs, and present a feasible algorithm for synthesis of controllers based on the finite-dimensional LMIs.


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BIB TeX

@article{kyb:2001:4:505-520,

author = {Ikeda, Kojiro and Azuma, Takehito and Uchida, Kenko},

title = {Infinite-Dimensional LMI Approach to Analysis and Synthesis for Linear Time-Delay Systems.},

journal = {Kybernetika},

volume = {37},

year = {2001},

number = {4},

pages = {505-520}

publisher = {{\'U}TIA, AV {\v C}R, Prague },

}


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