High Dimensional Multi-objective Grey Optimization of Planetary Gears Type AA with Hybrid Discrete Variables

The optimal design of planetary gears is a problem with high dimensional multi-objective and with complicated calculations & constraints et al. A general method for high dimensional multi-objective optimal design is presented based on degree of grey incidence with hybrid discrete variables. Usin...

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Hauptverfasser:	Youxin Luo, Degang Liao
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	absolute degree of grey incidences Algorithm design and analysis Chaos Computational intelligence Convergence Design optimization Gears Genetic algorithms high dimensional multiple objective hybrid discrete variables Mechanical engineering optimization design Optimization methods planetary gears
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creator	Youxin Luo Degang Liao
description	The optimal design of planetary gears is a problem with high dimensional multi-objective and with complicated calculations & constraints et al. A general method for high dimensional multi-objective optimal design is presented based on degree of grey incidence with hybrid discrete variables. Using grey degree of improved absolute incidence, multi-objective optimization design can be convened to single objective optimization. The method could reasonably deal with value adopting problems of hybrid discrete variables in optimization design. A chaos emigration operator is introduced for carrying out improvement on the fundamental genetic algorithm, and the grey compound genetic algorithmic program GSCHGA for the multi-objective optimization of hybrid discrete variables is developed. The high dimensional multi-objective optimal design example of planetary gears type AA design shows that this algorithm has no special requirements on the characteristics of optimal designing problems, it has a fairly good universal adaptability and a reliable operation of program with a strong ability of overall convergence.
doi_str_mv	10.1109/CINC.2009.60
format	Conference Proceeding
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A general method for high dimensional multi-objective optimal design is presented based on degree of grey incidence with hybrid discrete variables. Using grey degree of improved absolute incidence, multi-objective optimization design can be convened to single objective optimization. The method could reasonably deal with value adopting problems of hybrid discrete variables in optimization design. A chaos emigration operator is introduced for carrying out improvement on the fundamental genetic algorithm, and the grey compound genetic algorithmic program GSCHGA for the multi-objective optimization of hybrid discrete variables is developed. The high dimensional multi-objective optimal design example of planetary gears type AA design shows that this algorithm has no special requirements on the characteristics of optimal designing problems, it has a fairly good universal adaptability and a reliable operation of program with a strong ability of overall convergence.</abstract><pub>IEEE</pub><doi>10.1109/CINC.2009.60</doi><tpages>4</tpages></addata></record>
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subjects	absolute degree of grey incidences Algorithm design and analysis Chaos Computational intelligence Convergence Design optimization Gears Genetic algorithms high dimensional multiple objective hybrid discrete variables Mechanical engineering optimization design Optimization methods planetary gears
title	High Dimensional Multi-objective Grey Optimization of Planetary Gears Type AA with Hybrid Discrete Variables
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