Estimate design intent: a multiple genetic programming and multivariate analysis based approach
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @Article{Ishino:2002:AEI,
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author = "Yoko Ishino and Yan Jin",
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title = "Estimate design intent: a multiple genetic programming
and multivariate analysis based approach",
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journal = "Advanced Engineering Informatics",
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year = "2002",
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volume = "16",
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pages = "107--125",
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number = "2",
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keywords = "genetic algorithms, genetic programming, Design
process, Design intent, Multivariate analysis",
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owner = "wlangdon",
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URL = "http://www.sciencedirect.com/science/article/B6X1X-45XR6TT-3/2/d9b1ec675457ba42091348338705293d",
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ISSN = "1474-0346",
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DOI = "doi:10.1016/S1474-0346(01)00005-2",
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abstract = "Understanding design intent of designers is important
for managing design quality, achieving coherent
integration of design solutions, and transferring
design knowledge. This paper focuses on automatically
estimating design intent, represented as a summation of
weighted functions, based on the operational and
product-specific information monitored through design
processes. This estimated design intent provides a
basis for us to identify the evaluation tendency of
designers' ways of doing design. To represent and
estimate the design intent, we introduced a staged
design evaluation model as a general yet powerful model
of design decision-making process, and developed a
methodology for estimation of design intent (MEDI) as a
reasoning method. MEDI is composed of two basic
algorithms. One is our newly introduced multiple
genetic programming (MGP) and the other is statistical
multivariate analysis including principal component
analysis and multivariate regression. The
characteristics of MEDI are; (1) principal component
analysis provides approximate evaluation of how much
preferable a specific product model is, assuming the
final product model (or design) is the most preferable
one; (2) MGP enables us to simultaneously estimate both
structure of target performance functions and the
approximate values of their weights for a domain of
design problems; and (3) multivariate regression
readjusts the approximate weights obtained by MGP into
more accurate ones for specific design problems within
the domain. Our framework and methods have been
successfully tested in a case study of designing a
double-reduction gear system.",
- }
Genetic Programming entries for
Yoko Ishino
Yan Jin
Citations