Evolution of Active Filter Circuits Design Using Genetic Programming
Created by W.Langdon from
gp-bibliography.bib Revision:1.8051
- @Article{Ushie:2017:electroscope,
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author = "Ogri J. Ushie and Maysam F. Abbod and
Evans C. Ashigwuike",
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title = "Evolution of Active Filter Circuits Design Using
Genetic Programming",
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journal = "International Journal of Electrical and
Telecommunication System Research",
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year = "2017",
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volume = "9",
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number = "9",
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pages = "19--28",
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month = sep,
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keywords = "genetic algorithms, genetic programming, modified
symbolic circuit analysis in Matlab, genetic folding,
genetic programming and automatically simulated
netlist",
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ISSN = "0795-2260",
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URL = "http://www.electroscopejournal.org.ng/index.php/electros/article/view/116/108",
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URL = "http://www.electroscopejournal.org.ng/index.php/electros/article/view/116/108.pdf",
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size = "10 pages",
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abstract = "This research seeks to introduce genetic folding (GF),
modified symbolic circuit analysis in Matlab (MSCAM),
and automatically simulated Netlist into existing
genetic programming (GP) which is a new contribution of
this paper. It enhances the development of independent
Matlab toolbox for the evolution of active filter
circuits. The active filter circuit evolution,
especially when operational amplifiers are involved as
components, is of the first kind in circuit evolution.
The research uses only one software package instead of
combining PSpice and Matlab in electronic circuit
simulation as in existing GP. This saves the elapsed
time for moving the simulation between the two
platforms and reduces the cost of subscription. The
evolving circuit from GP/F using Matlab simulation is
automatically transformed into a symbolic Netlist. The
Netlist is fed into MSCAM; where MSCAM uses it to
generate matrices for the simulation. The matrices
enhance frequency response analysis of four different
active filter circuits (low-pass, high-pass, band-pass,
band-stop of active filter circuits). Results presented
proved the algorithm's efficiency regarding design
wise. The research also provided an alternative method
of using GP/F for the evolution of active filter
circuit, especially when operational amplifier is
involved as a component.",
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notes = "http://www.electroscopejournal.org.ng/index.php/electros/issue/view/10
electroscope.editor@gmail.com Department of Electronic
and Computer Engineering, Nnamdi Azikiwe University,
PMB 5052 Awka, Nigeria.",
- }
Genetic Programming entries for
Ogri James Ushie
Maysam F Abbod
Evans C Ashigwuike
Citations