Evolutionary Design of Combinational Logic Circuits Using an Improved Gene Expression-Based Clonal Selection Algorithm
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InProceedings{Gan:2009:ICNC,
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author = "Zhaohui Gan and Tao Shang and Gang Shi and Min Jiang",
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title = "Evolutionary Design of Combinational Logic Circuits
Using an Improved Gene Expression-Based Clonal
Selection Algorithm",
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booktitle = "Fifth International Conference on Natural Computation,
ICNC '09",
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year = "2009",
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month = aug,
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volume = "4",
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pages = "37--41",
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abstract = "In this paper, an improved gene expression-based
clonal selection algorithm (IGE-CSA) is proposed, which
is aimed at solving synthesis problems of combinational
logic circuits. The encoding of gene expression
programming (GEP) is improved. Compared with GEP
encoding, the proposed encoding is more compact and
fits to represent multi-output combinational logic
circuit. Clonal selection algorithm (CSA) is applied as
search engine of the proposed approach. The proposed
method is applied into combinational logic circuit
design successfully. Two kinds of combinational logic
circuits are synthesised to verify the effectiveness of
the proposed approach. The experimental results show
that the proposed approach can automatically generate
combinational logic circuits efficiently and
effectively. Compared with other method, the obtained
circuits by the proposed method are optimal.",
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keywords = "genetic algorithms, genetic programming, gene
expression programming, GEP encoding, gene
expression-based clonal selection algorithm,
multioutput combinational logic circuit, biomolecular
electronics, combinational circuits, genetics,
molecular biophysics",
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DOI = "doi:10.1109/ICNC.2009.308",
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notes = "Also known as \cite{5365151}",
- }
Genetic Programming entries for
Zhaohui Gan
Tao Shang
Gang Shi
Min Jiang
Citations