Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions
This paper demonstrates a hybrid between two optimization methods that are Artificial Immune System (AIS) and Genetic Algorithm (GA). The capability of overcoming the shortcomings of individual algorithms without losing their advantages makes the hybrid techniques superior to the stand-alone ones ba...
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my.uniten.dspace-296552023-12-28T15:17:54Z Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions Ali M.O. Koh S.P. Chong K.H. Yap D.F.W. 55470919300 22951210700 36994481200 22952562500 Artificial immune system (AIS) Genetic algorithm (GA) optimization mathematical test functions Hybrid Engineering research Functions Immunology Innovation Optimization Test facilities Artificial Immune System Convergence rates Genetic-algorithm optimizations Hybrid Hybrid techniques Local searching Minimum value Optimization method Stand -alone Standard solutions Test functions Genetic algorithms This paper demonstrates a hybrid between two optimization methods that are Artificial Immune System (AIS) and Genetic Algorithm (GA). The capability of overcoming the shortcomings of individual algorithms without losing their advantages makes the hybrid techniques superior to the stand-alone ones based on the dominant purpose of hybridization. The improvement of the results that enable to get it if GA and AIS work separately is the main objective of this hybrid. The hybrid includes two processes; firstly, AIS is the attraction among the researchers as the algorithm. This enables it to develop local searching ability and efficiency yet the convergence rate for AIS is preferably not precise compared to the GA. Secondly, a Genetic Algorithm is typically initializing population randomly. The last generation of AIS will be the input to the next process of the hybrid which is the GA in this hybrid AIS-GA. Hybrid makes GA enters the stage of standard solutions more rapidly and more accurate compared with GA initialized population at random. To differentiate between the results in terms of achieving the minimum value for these functions, eight mathematical test functions are being used to make comparison. �2010 IEEE. Final 2023-12-28T07:17:54Z 2023-12-28T07:17:54Z 2010 Conference paper 10.1109/SCORED.2010.5704012 2-s2.0-79951984379 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79951984379&doi=10.1109%2fSCORED.2010.5704012&partnerID=40&md5=3961fa208f9fb007a1cab039ce17815d https://irepository.uniten.edu.my/handle/123456789/29655 5704012 256 261 Scopus |
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Artificial immune system (AIS) Genetic algorithm (GA) optimization mathematical test functions Hybrid Engineering research Functions Immunology Innovation Optimization Test facilities Artificial Immune System Convergence rates Genetic-algorithm optimizations Hybrid Hybrid techniques Local searching Minimum value Optimization method Stand -alone Standard solutions Test functions Genetic algorithms |
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Artificial immune system (AIS) Genetic algorithm (GA) optimization mathematical test functions Hybrid Engineering research Functions Immunology Innovation Optimization Test facilities Artificial Immune System Convergence rates Genetic-algorithm optimizations Hybrid Hybrid techniques Local searching Minimum value Optimization method Stand -alone Standard solutions Test functions Genetic algorithms Ali M.O. Koh S.P. Chong K.H. Yap D.F.W. Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
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This paper demonstrates a hybrid between two optimization methods that are Artificial Immune System (AIS) and Genetic Algorithm (GA). The capability of overcoming the shortcomings of individual algorithms without losing their advantages makes the hybrid techniques superior to the stand-alone ones based on the dominant purpose of hybridization. The improvement of the results that enable to get it if GA and AIS work separately is the main objective of this hybrid. The hybrid includes two processes; firstly, AIS is the attraction among the researchers as the algorithm. This enables it to develop local searching ability and efficiency yet the convergence rate for AIS is preferably not precise compared to the GA. Secondly, a Genetic Algorithm is typically initializing population randomly. The last generation of AIS will be the input to the next process of the hybrid which is the GA in this hybrid AIS-GA. Hybrid makes GA enters the stage of standard solutions more rapidly and more accurate compared with GA initialized population at random. To differentiate between the results in terms of achieving the minimum value for these functions, eight mathematical test functions are being used to make comparison. �2010 IEEE. |
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55470919300 |
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55470919300 Ali M.O. Koh S.P. Chong K.H. Yap D.F.W. |
format |
Conference paper |
author |
Ali M.O. Koh S.P. Chong K.H. Yap D.F.W. |
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Ali M.O. |
title |
Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
title_short |
Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
title_full |
Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
title_fullStr |
Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
title_full_unstemmed |
Hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
title_sort |
hybrid artificial immune system-genetic algorithm optimization based on mathematical test functions |
publishDate |
2023 |
_version_ |
1806428136803401728 |
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13.222552 |