Open AccessFinding the Minimum Information Content in 2-FR, 2-DP Coupled Designs
Author(s) -
João Fradinho,
António Mourão,
António Gabriel-Santos,
António Gonçalves-Coelho
Publication year - 2016
Publication title -
procedia cirp
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.683
H-Index - 65
ISSN - 2212-8271
DOI - 10.1016/j.procir.2016.06.024
Subject(s) - axiomatic design , independence (probability theory) , set (abstract data type) , ideal (ethics) , axiom , sequence (biology) , simple (philosophy) , axiom independence , computer science , functional requirement , design elements and principles , engineering drawing , engineering , mathematics , compatibility (geochemistry) , software engineering , programming language , philosophy , statistics , geometry , epistemology , chemical engineering , biology , genetics
Axiomatic Design classifies designs into three basic types: uncoupled, decoupled and coupled. The first type encompasses the ideal designs, where independence is always ensured, the second includes the designs where independence can be achieved using the right sequence to fine-tune the design parameters as to satisfy the given set of functional requirements, while the last comprises designs for which independence can never be achieved. Usually, coupled designs are avoided and designers are encouraged to redesign their solutions until an uncoupled or a decoupled one is achieved. Nevertheless, coupled solutions are often hard to avoid. This paper discusses this issue and uses a simple graphical example on how to adjust either the functional requirements or the design parameters of a 2-FR, 2-DP coupled design that is regarded as being uncoupled, as to attain the minimum information content
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