Design evolution of mechatronic systems through modelling, on-line monitoring, and evolutionary optimization
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- @Article{Gamage201283,
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author = "L. B. Gamage and C. W. {de Silva} and R. Campos",
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title = "Design evolution of mechatronic systems through
modelling, on-line monitoring, and evolutionary
optimization",
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journal = "Mechatronics",
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volume = "22",
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number = "1",
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pages = "83--94",
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year = "2012",
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ISSN = "0957-4158",
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DOI = "
doi:10.1016/j.mechatronics.2011.11.012",
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URL = "
http://www.sciencedirect.com/science/article/pii/S0957415811001991",
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keywords = "genetic algorithms, genetic programming, Design
evolution, Linear Graphs, Electro-mechanical
modelling",
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abstract = "This paper presents a system framework to automate the
design evolution of multi-domain engineering systems.
The developed system integrates machine health
monitoring with an expert system to monitor the
performance of an existing mechatronic system and to
take a decision as to whether and which part of the
system a design improvement is necessary. A system
model represented by Linear Graphs is evolved using
genetic programming to obtain a design that optimally
satisfies a specified level of performance. The
developed approach allows exploration of the design
space to find the optimum design solution in an
automated manner. In order to control the arbitrary
exploration of the design space, domain knowledge,
expertise, and input from the machine health monitoring
system are used. The design evolution algorithm is
implemented using GPLAB, a MATLAB tool, and integrated
with Simscape for modelling and simulation. The
developed system is applied to redesign the
electro-mechanical conveyor system of an industrial
fish processing machine.",
- }
Genetic Programming entries for
Lalith B Gamage
Clarence W de Silva
J Ramon Campos
Citations
