화학공학소재연구정보센터
International Journal of Control, Vol.85, No.6, 613-628, 2012
Optimal time-weighted H-2 model reduction for Markovian jump systems
This article addresses the optimal time-weighted H-2 model reduction problem for Markovian jump linear systems. That is, for a given mean square stable Markovian jump system, our aim is to find a mean square stable jump system of lower order such that the time-weighted H-2 norm of the corresponding error system is minimised. The time-weighted H-2 norm of the system is first defined, and then a computational method is constructed. The computation requires the solution of two sets of recursive Lyapunov-type linear matrix equations associated with the Markovian jump system. To solve the optimal time-weighted H-2 model reduction problem, we propose a gradient flow method for its solution. A necessary condition for minimality is derived, and a computational procedure is provided to obtain the minimising reduced-order model. The necessary condition generalises the standard result for systems when Markov jumps and the time-weighting term do not appear. Finally, two numerical examples are given to demonstrate the effectiveness of the proposed approach.