Proceedings of the KIEE Conference (대한전기학회:학술대회논문집)
- 2001.07d
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- Pages.1999-2001
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- 2001
Design of a Controller Using Successive Approximation for Weakly Copled Bilinear Systems
연속적 근사화 방법을 이용한 쌍일차 정규섭동 시스템의 최적제어기 설계
- Chang, Jae-Won (Department of Mechatronics Eng., Korea Univ.) ;
- Lee, Sang-Yup (Department of Mechatronics Eng., Korea Univ.) ;
- Kim, Beom-Soo (Department of Electrical Eng., Korea Univ.) ;
- Lim, Myo-Taeg (Department of Electrical Eng., Korea Univ.)
- Published : 2001.07.18
Abstract
The infinite time optimum to regulate the problem of weakly coupled bilinear systems with a quadratic performance criterion is obtained by a sequence of algebraic Lyapunov equations. The new approach is based on the successive approximations. In particular, the order reduction is achieved by using suitable state transformation so that the original Lyapunov equations are decomposed into the reduced-order local Lyapunov equations. The proposed algorithms not only solve optimal control problems in the weakly coupled bilinear system but also reduce the computation time. This paper also includes an example to demonstrate the procedures.
Keywords