ISSN:
1573-2878
Keywords:
Multi-objective optimization
;
efficiency
;
facilities design
Source:
Springer Online Journal Archives 1860-2000
Topics:
Mathematics
Notes:
Abstract Define a design to be any planar setD of known areaa, but of unknown shape and location; more generally, a design can be any set inR d of measurea. For example, a design might be one floor of a warehouse, or a sports arena of known seating capacity. Suppose that the design has, say,m users, or evaluators, with user/evaluatori having a design disutility functionu i , 1≤i≤m, which can be defined for all points in the plane independently of the designs of interest. Given any designD, denote byG i (D) the disutility ofD to user/evaluatori where, by definition,G i (D) is the supremum ofu i over the setD, 1≤i≤m. LetG(D) be the vector with entriesG i (D), 1≤i≤m, and define a design to be efficient if it solves the vector minimization problem obtained using the set of vectors {G(D):D a design}. Given mild assumptions about the disutility functions, and a slight refinement of the design definition to rule out certain pathologies, we present necessary and sufficient conditions for a design to be efficient, and study properties of efficient designs. In the final section, we extend the analysis to more generall p -measures of design disutility.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00934708
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