Multiobjective Evolutionary Approach to the Design of Optimal Controllers for Interval Plants via Parallel Computation(Systems and Control)
スポンサーリンク
概要
- 論文の詳細を見る
Design of optimal controllers satisfying performance criteria of minimum tracking error and disturbance level for an interval system using a multi-objective evolutionary approach is proposed in this paper. Based on a worst-case design philosophy, the design problem is formulated as a minimax optimization problem, subsequently solved by a proposed two-phase multi-objective genetic algorithm (MOGA). By using two sets of interactive genetic algorithms where the first one determines the maximum (worst-case) cost function values for a given set of controller parameters while the other one minimizes the maximum cost function values passed from the first genetic algorithm, the proposed approach evolutionarily derives the optimal controllers for the interval system. To suitably assess chromosomes for their fitness in a population, root locations of the 32 generalized Kharitonov polynomials will be used to establish a constraints handling mechanism, based on which a fitness function can be constructed for effective evaluation of the chromosomes. Because of the time-consuming process that genetic algorithms generally exhibit, particularly the problem nature of minimax optimization, a parallel computation scheme for the evolutionary approach in the MATLAB-based working environment is also proposed to accelerate the design process.
- 社団法人電子情報通信学会の論文
- 2006-09-01
著者
-
Yu Chih-yung
Department Of Computer Science National Taiwan University Of Science And Techonology
-
Chang Shih-chi
Department Of Electronic Engineering St. John's University
-
Hsu Chen-chien
Department Of Electrical Engineering Tamkang University
関連論文
- Structural and Magnetic Studies of Dimeric Copper(II) 2,2-Diphenylpropanoato and Triphenylacetato Complexes with Oxygen-Donor Ligands. The Cage Geometry of Dimeric α-Phenyl Substituted Copper(II) Carboxylates^
- Primary Malignant Mesothelioma of the Greater Omentum : Report of a Case
- Multiobjective Evolutionary Approach to the Design of Optimal Controllers for Interval Plants via Parallel Computation(Systems and Control)
- Discrete Modelling of Continuous-Time Systems Having Interval Uncertainties Using Genetic Algorithms
- Structural, Magnetic, and Spectroscopic Characterization of the Pyridine Complexes of Copper(II) Triphenylacetate: A Dimeric Copper(II) Triphenylacetate-Pyridine Complex with Distorted Trigonal Bipyramidal Geometry Around Copper.