论文信息 - Genetic algorithm enabled computer-automated design of QFT control systems

Genetic algorithm enabled computer-automated design of QFT control systems

This paper first reviews the existing quantitative feedback theory (QFT) based design techniques and difficulties that a designer encounters. Based on this analysis and taking into account the practical constraints, an evolutionary computation enabled automatic design procedure is developed. It can be employed to provide an initial controller quickly on which manual loop-shaping and refinements are based on, or be used to further tune existing controllers or start from scratch. A design example against a MATLAB QFT Toolbox benchmark problem shows that this methodology not only automates loop-shaping but also improves design quality and, most usefully, improves the quality with a reduced order controller. The entire design is targeted towards global optimisation, including the prefilter selection.

[1] Osita D. I. Nwokah,et al. Analytic Loop Shaping Methods in Quantitative Feedback Theory , 1994 .

[2] G. Bryant,et al. Optimal loop-shaping for systems with large parameter uncertainty via linear programming , 1995 .

[3] Isaac Horowitz,et al. Quantitative feedback design theory : QFT , 1993 .

[4] Yun Li,et al. Artificial evolution of neural networks and its application to feedback control , 1996, Artif. Intell. Eng..

[5] I. Horowitz,et al. Optimization of the loop transfer function , 1980 .

[6] Peter J. Gawthrop,et al. Control systems design via a quantitative feedback theory approach , 1991 .

[7] Isaac Horowitz,et al. Optimum loop transfer function in single-loop minimum-phase feedback systems† , 1973 .

[8] Wen-Hua Chen,et al. Automatic loop-shaping in QFT using genetic algorithms , 1998 .