The data-correcting algorithm for the minimization of supermodular functions

B Goldengorin; G Sierksma; GA Tijssen; M Tso

doi:10.1287/mnsc.45.11.1539

The data-correcting algorithm for the minimization of supermodular functions

B Goldengorin^*, G Sierksma, GA Tijssen, M Tso

^*Corresponding author voor dit werk

Onderzoeksoutput: Article › Academic › peer review

38 Citaten (Scopus)

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The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data of a given problem instance are "heuristically corrected" at each branching in such a way that the new instance will be as close as possible to polynomially solvable and the result satisfies a prescribed accuracy (the difference between optimal and current solution). In this paper the DC algorithm is applied to determining exact or approximate global minima of supermodular functions. The working of the algorithm is illustrated by an instance of the Simple Plant Location (SPL) Problem. Computational results, obtained for the Quadratic Cost Partition Problem (QCP), show that the DC algorithm outperforms a branch-and-cut algorithm, not only for sparse graphs but also for nonsparse graphs (with density more than 40%), often with speeds 100 times faster.

Originele taal-2	English
Pagina's (van-tot)	1539-1551
Aantal pagina's	13
Tijdschrift	Management Science
Volume	45
Nummer van het tijdschrift	11
DOI's	https://doi.org/10.1287/mnsc.45.11.1539
Status	Published - nov.-1999

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title = "The data-correcting algorithm for the minimization of supermodular functions",

abstract = "The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data of a given problem instance are {"}heuristically corrected{"} at each branching in such a way that the new instance will be as close as possible to polynomially solvable and the result satisfies a prescribed accuracy (the difference between optimal and current solution). In this paper the DC algorithm is applied to determining exact or approximate global minima of supermodular functions. The working of the algorithm is illustrated by an instance of the Simple Plant Location (SPL) Problem. Computational results, obtained for the Quadratic Cost Partition Problem (QCP), show that the DC algorithm outperforms a branch-and-cut algorithm, not only for sparse graphs but also for nonsparse graphs (with density more than 40\%), often with speeds 100 times faster.",

keywords = "Data-Correcting Algorithm, supermodular function, global minimum",

author = "B Goldengorin and G Sierksma and GA Tijssen and M Tso",

year = "1999",

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AU - Sierksma, G

AU - Tijssen, GA

AU - Tso, M

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Y1 - 1999/11

N2 - The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data of a given problem instance are "heuristically corrected" at each branching in such a way that the new instance will be as close as possible to polynomially solvable and the result satisfies a prescribed accuracy (the difference between optimal and current solution). In this paper the DC algorithm is applied to determining exact or approximate global minima of supermodular functions. The working of the algorithm is illustrated by an instance of the Simple Plant Location (SPL) Problem. Computational results, obtained for the Quadratic Cost Partition Problem (QCP), show that the DC algorithm outperforms a branch-and-cut algorithm, not only for sparse graphs but also for nonsparse graphs (with density more than 40%), often with speeds 100 times faster.

AB - The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data of a given problem instance are "heuristically corrected" at each branching in such a way that the new instance will be as close as possible to polynomially solvable and the result satisfies a prescribed accuracy (the difference between optimal and current solution). In this paper the DC algorithm is applied to determining exact or approximate global minima of supermodular functions. The working of the algorithm is illustrated by an instance of the Simple Plant Location (SPL) Problem. Computational results, obtained for the Quadratic Cost Partition Problem (QCP), show that the DC algorithm outperforms a branch-and-cut algorithm, not only for sparse graphs but also for nonsparse graphs (with density more than 40%), often with speeds 100 times faster.

KW - Data-Correcting Algorithm

KW - supermodular function

KW - global minimum

U2 - 10.1287/mnsc.45.11.1539

DO - 10.1287/mnsc.45.11.1539

M3 - Article

VL - 45

SP - 1539

EP - 1551

JO - Management Science

JF - Management Science

IS - 11

ER -

The data-correcting algorithm for the minimization of supermodular functions

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