GENETIC ALGORITHMS FOR MULTI-OBJECTIVE OPTIMIZATION: FORMULATION, DISCUSSION, AND GENERALIZATION

Carlos M. Fonseca; P.J. Fleming

Abstract

The paper describes a rank-based fitness assignment method for Multiple Objective Genetic Algorithms (MOGAs). Conventional niche formation methods are extended to this class of multimodal problems and theory for setting the niche size is presented. The fitness assignment method is then modified to allow direct intervention of an external decision maker (DM). Finally, the MOGA is generalised further: the genetic algorithm is seen as the optimizing element of a multiobjective optimization loop, which also comprises the DM. It is the interaction between the two that leads to the determination of a satisfactory solution to the problem. Illustrative results of how the DM can interact with the genetic algorithm are presented. They also show the ability of the MOGA to uniformly sample regions of the trade-off surface.

Keywords

GeneralizationComputer scienceGenetic algorithmMulti-objective optimizationMathematical optimizationQuality control and genetic algorithmsGenetic programmingAlgorithmArtificial intelligenceMeta-optimizationMathematicsMachine learning

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Publication Info

Year: 1993
Type: article
Issue: 5
Pages: 416-423
Citations: 1834
Access: Closed

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APA Style

                            
                                    Carlos M. Fonseca, 
                                
                                    P.J. Fleming
                                
                            (1993). 
                            GENETIC ALGORITHMS FOR MULTI-OBJECTIVE OPTIMIZATION: FORMULATION, DISCUSSION, AND GENERALIZATION. 
                            
                            (5)
                            , 416-423.