Educated searchaA generic platform for partial modification at conceptual design phase of multidisciplinary problems

This paper presents a goal programming algorithm utilising a weight-free aggregate function for producing enhanced design alternatives and a knowledge-based procedure for the selection of the final solution from a pool of enhanced alternatives. Normally, in a multi-disciplinary design problem severa...

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Bibliographic Details
Published in:Computer aided design 2013-06, Vol.45 (6), p.991-1004
Main Authors: Maheri, Alireza, Isikveren, Askin T
Format: Article
Language:English
Subjects:
Aggregates
Construction
Decision making
Filtering
Knowledge base
Mathematical analysis
Mathematical models
Modules
Online Access:Get full text
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Summary:This paper presents a goal programming algorithm utilising a weight-free aggregate function for producing enhanced design alternatives and a knowledge-based procedure for the selection of the final solution from a pool of enhanced alternatives. Normally, in a multi-disciplinary design problem several teams of designers with different preference and background knowledge are involved in the decision making processes, such as constructing aggregate functions for multi-objective optimisation and trade-off study towards selecting the final solution. In constructing an aggregate function, designers need to identify how important each objective is with respect to the other objectives. However, in the absence of a final decision maker with expertise in all disciplines, the predicates such as aas important asa or amore important thana cannot be used to compare objectives from different disciplines, and therefore the establishment of a weighted aggregate function is not viable. Introducing the concepts of unsatisfactoriness and tolerated margin, ahow important is a design quality with respect to other design qualitiesa is replaced with ato what extent can the unsatisfactoriness of a design quality be tolerateda. This removes the predicament arising from the usual subjective decision making when forming an aggregate function and also transforms the final solution selection from a negotiation process to a straightforward and knowledge based procedure. A software tool comprising of two modules, a multi-deme genetic algorithm, for producing enhanced alternatives, and an assessment module, which includes visualisation, ranking and filtering facilities, is developed and its performance is shown using an illustrative multi-disciplinary design space.
ISSN:0010-4485
DOI:10.1016/j.cad.2013.02.001