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Solving computational algorithm using CLONALNet technique based on artificial clonal selection

This paper discusses the approach of CLONALNet in determining the optimum fitness function and mean population by benchmarking it with CLONALG. By using this algorithm the steps to obtain the fitness function is optimized and processing time is reduced. CLONALNet is a hybrid or combination of both o...

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Main Authors: Samy J.A.L.A., Krishnan P.S.A.L., Kiong T.S.
Other Authors: 54584226700
Format: Conference paper
Published: IEEE Computer Society 2023
Subjects:
CLONALNet
data acquisition
Gaussian
Multifunction
mutation rate
Clone cells
Cloning
Data acquisition
Affinity maturation
Artificial immune networks
Computational algorithm
Fitness functions
Gaussians
Mutation rates
Health
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id my.uniten.dspace-30491
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spelling my.uniten.dspace-304912023-12-29T15:48:27Z Solving computational algorithm using CLONALNet technique based on artificial clonal selection Samy J.A.L.A. Krishnan P.S.A.L. Kiong T.S. 54584226700 36053261400 15128307800 CLONALNet data acquisition Gaussian Multifunction mutation rate Clone cells Cloning Data acquisition Affinity maturation Artificial immune networks CLONALNet Computational algorithm Fitness functions Gaussians Multifunction Mutation rates Health This paper discusses the approach of CLONALNet in determining the optimum fitness function and mean population by benchmarking it with CLONALG. By using this algorithm the steps to obtain the fitness function is optimized and processing time is reduced. CLONALNet is a hybrid or combination of both opt-aiNet (Optimize Artificial Immune Network) and CLONALG. CLONALNet enforces an algorithm that is much more robust in evaluating the fitness for each antibody cells since it initiates boundaries so that the initialization process doesn't run off as of previous CLONALG algorithm but still maintains the immune network interaction as in aiNet. Also included is the combination of steps which includes cloning, affinity maturation and selection steps into one single function to find the best group of clones. In recent studies done, the maximum value will be the optimum solution. The optimum result as suggested in this paper is the minimum value for fitness function referring to global optimum result which is zero. � 2011 IEEE. Final 2023-12-29T07:48:26Z 2023-12-29T07:48:26Z 2011 Conference paper 10.1109/ICOS.2011.6079255 2-s2.0-83155178468 https://www.scopus.com/inward/record.uri?eid=2-s2.0-83155178468&doi=10.1109%2fICOS.2011.6079255&partnerID=40&md5=7d47b796576bcf758f846241bed4c243 https://irepository.uniten.edu.my/handle/123456789/30491 6079255 344 347 IEEE Computer Society Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic CLONALNet
data acquisition
Gaussian
Multifunction
mutation rate
Clone cells
Cloning
Data acquisition
Affinity maturation
Artificial immune networks
CLONALNet
Computational algorithm
Fitness functions
Gaussians
Multifunction
Mutation rates
Health
spellingShingle CLONALNet
data acquisition
Gaussian
Multifunction
mutation rate
Clone cells
Cloning
Data acquisition
Affinity maturation
Artificial immune networks
CLONALNet
Computational algorithm
Fitness functions
Gaussians
Multifunction
Mutation rates
Health
Samy J.A.L.A.
Krishnan P.S.A.L.
Kiong T.S.
Solving computational algorithm using CLONALNet technique based on artificial clonal selection
description This paper discusses the approach of CLONALNet in determining the optimum fitness function and mean population by benchmarking it with CLONALG. By using this algorithm the steps to obtain the fitness function is optimized and processing time is reduced. CLONALNet is a hybrid or combination of both opt-aiNet (Optimize Artificial Immune Network) and CLONALG. CLONALNet enforces an algorithm that is much more robust in evaluating the fitness for each antibody cells since it initiates boundaries so that the initialization process doesn't run off as of previous CLONALG algorithm but still maintains the immune network interaction as in aiNet. Also included is the combination of steps which includes cloning, affinity maturation and selection steps into one single function to find the best group of clones. In recent studies done, the maximum value will be the optimum solution. The optimum result as suggested in this paper is the minimum value for fitness function referring to global optimum result which is zero. � 2011 IEEE.
author2 54584226700
author_facet 54584226700
Samy J.A.L.A.
Krishnan P.S.A.L.
Kiong T.S.
format Conference paper
author Samy J.A.L.A.
Krishnan P.S.A.L.
Kiong T.S.
author_sort Samy J.A.L.A.
title Solving computational algorithm using CLONALNet technique based on artificial clonal selection
title_short Solving computational algorithm using CLONALNet technique based on artificial clonal selection
title_full Solving computational algorithm using CLONALNet technique based on artificial clonal selection
title_fullStr Solving computational algorithm using CLONALNet technique based on artificial clonal selection
title_full_unstemmed Solving computational algorithm using CLONALNet technique based on artificial clonal selection
title_sort solving computational algorithm using clonalnet technique based on artificial clonal selection
publisher IEEE Computer Society
publishDate 2023
_version_ 1806424110137344000
score 13.214268

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