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A recursive algorithm for finding the minimum norm point in a polytope and a pair of closest points in two polytopes (1993)

Sekitani, Kazuyuki ; Yamamoto, Yoshitsugu

Springer

Mathematical programming 61 (1993), S. 233-249

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ISSN: 1436-4646

Keywords: Minimum norm point ; minimum distance pair of points ; recursive algorithm ; convex quadratic program

Source: Springer Online Journal Archives 1860-2000

Topics: Computer Science , Mathematics

Notes: Abstract For a given pair of finite point setsP andQ in some Euclidean space we consider two problems: Problem 1 of finding the minimum Euclidean norm point in the convex hull ofP and Problem 2 of finding a minimum Euclidean distance pair of points in the convex hulls ofP andQ. We propose a finite recursive algorithm for these problems. The algorithm is not based on the simplicial decomposition of convex sets and does not require to solve systems of linear equations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01582149

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The (n + 1)2 m -ray algorithm: a new simplicial algorithm for the variational inequality problem on ℝ + m ×S n (1993)

Yamamoto, Yoshitsugu ; Yang, Zaifu

Springer

Annals of operations research 44 (1993), S. 93-113

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ISSN: 1572-9338

Keywords: Variational inequality problem ; nonlinear complementarity problem ; simplicial algorithm ; triangulation ; piecewise linear approximation ; convergence condition

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Economics

Notes: Abstract In this paper we propose a variable dimension simplicial algorithm for solving the variational inequality problem on the cross product of the nonnegative orthant ℝ + m of them-dimensional Euclidean space ℝ m and then-dimensional unit simplexS n of ℝ n+1. Starting from an arbitrary point (u, v) єℝ + m ×S n, the algorithm generates a piecewise linear path in ℝ + m ×S n. The path is traced by making alternately linear programming pivot operations and replacement steps in an appropriate simplicial subdivision of ℝ + m ×S n. The algorithm differs from the thus far known algorithm in the number of directions in which it may leave the starting point. More precisely, the algorithm has (n+1)2 m rays to leave the starting point whereas the existing algorithm hasn+m+1 rays. A convergence condition is presented and the accuracy estimation of an approximate solution generated is also given.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02073592

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