A new procedure for identifying the frame of the convex hull of a finite collection of points in multidimensional space

Consider a set, A of n points in m-dimensional space. The convex hull of these points is a polytope, P , in R m . The frame, F , of these points in the set of extreme points of teh polytope P with F ⊆ A . The problem of identifying the frame plays a central role in optimization theory (redundancy in...

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Bibliographic Details
Published in:European journal of operational research 1996-07, Vol.92 (2), p.352-367
Main Authors: Dulá, J.H., Helgason, R.V.
Format: Article
Language:English
Subjects:
Convex hull problem
Data envelopment analysis
Frame
Linear programming
Operations research
Problem solving
Redundancy
Studies
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Summary:Consider a set, A of n points in m-dimensional space. The convex hull of these points is a polytope, P , in R m . The frame, F , of these points in the set of extreme points of teh polytope P with F ⊆ A . The problem of identifying the frame plays a central role in optimization theory (redundancy in linear programming and stochastic programming), economics (data envelopment analysis), computational geometry (facial decomposition of polytopes) and statistics (Gastwirth estimators). The standard approach for finding the elements of F consists of solving linear programs with m rows and n − 1 columns; one for each element of A , differing only in the right-hand side vectors. Although enhancements to reduce the total number of linear programs which must ultimately be solved as well as to reduce the number of columns in the technology matrix are known, the utility of this approach is severely limited by its laboriousness and computational demands. We introduce a new procedure also based on solving linear programs but with an important and distinguishing difference. The linear programs begin small and grow larger, but never have more columns than the number of extreme points of P . Experimental results indicate that the time to find the frame using the new procedure is between about one-third and two-thirds that of an enhanced implementation of the established method currently in use.
ISSN:0377-2217
1872-6860
DOI:10.1016/0377-2217(94)00366-1