Title :
MoGFT-I: A Multi-objective Optimization approach for the Cart and Pole control problem
Author :
Ishibashi, Rogerio ; Lucio Nascimento Junior, Cairo
Author_Institution :
Div. of Electron. Eng., Inst. Tecnol. de Aeronaut., São José dos Campos, Brazil
Abstract :
In this article a set of well-known computational intelligence techniques such as Decision Trees, Fuzzy Logic, and Multi-objective Optimization Genetic Algorithm are combined to generate a novel hybrid method which is called MoGFT-I: Multi-objective Genetic Fuzzy Rule Based System supported by a Decision Tree with Improved Interpretability. The output of the proposed supervised learning method is a set of Mamdani-type fuzzy systems which are optimized and distributed along a Pareto curve by considering two conflicting attributes: accuracy and interpretability. The MoGFT-I method is then applied to the Cart and Pole control problem such that a set of feedback controller are designed to control this unstable nonlinear dynamical system.
Keywords :
Pareto optimisation; control system synthesis; decision trees; feedback; fuzzy control; genetic algorithms; nonlinear dynamical systems; pole assignment; Mamdani-type fuzzy systems; MoGFT-I method; Pareto curve; accuracy attribute; cart-and-pole control problem; computational intelligence techniques; decision trees; feedback controller design; fuzzy logic; hybrid method; interpretability attribute; interpretability improvement; multiobjective genetic fuzzy rule-based system; multiobjective optimization approach; multiobjective optimization genetic algorithm; supervised learning method; unstable nonlinear dynamical system control; Decision trees; Genetic algorithms; Mathematical model; Pareto optimization; Sociology; Fuzzy Controller; Genetic Fuzzy Rule Based System; Interpretability; Knowledge Extraction; Multi-objective Optimization; Pareto-optimal front;
Conference_Titel :
Systems Conference (SysCon), 2015 9th Annual IEEE International
Conference_Location :
Vancouver, BC
DOI :
10.1109/SYSCON.2015.7116758
