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...
International audienceSparse optimization focuses on finding a solution to least-squares problems wi...
AbstractWe consider the problem of minimizing a supermodular set function whose special case is the ...
Submodular functions are powerful tools to model and solve either to optimality or approximately man...
The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data...
The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data...
The Data-Correcting Algorithm (DCA) corrects the data of a hard problem instance in such a way that...
This paper presents the first combinatorial polynomial-time algorithm for minimizing submodular func...
Maximization of submodular functions on a ground set is a NP-hard combinatorial optimization problem...
This paper presents a combinatorial polynomial-time algorithm for minimizing submolular set function...
We consider the objective function of a simple recourse problem with fixed technology matrix and int...
The Data Correcting Algorithm is a branch and bound algorithm in which thedata of a given problem in...
New product development is one of the most powerful but difficult activities in business. It is also...
International audienceSparse optimization focuses on finding a solution to least-squares problems wi...
AbstractWe consider the problem of minimizing a supermodular set function whose special case is the ...
Submodular functions are powerful tools to model and solve either to optimality or approximately man...
The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data...
The Data-Correcting (DC) Algorithm is a recursive branch-and-bound type algorithm, in which the data...
The Data-Correcting Algorithm (DCA) corrects the data of a hard problem instance in such a way that...
This paper presents the first combinatorial polynomial-time algorithm for minimizing submodular func...
Maximization of submodular functions on a ground set is a NP-hard combinatorial optimization problem...
This paper presents a combinatorial polynomial-time algorithm for minimizing submolular set function...
We consider the objective function of a simple recourse problem with fixed technology matrix and int...
The Data Correcting Algorithm is a branch and bound algorithm in which thedata of a given problem in...
New product development is one of the most powerful but difficult activities in business. It is also...
International audienceSparse optimization focuses on finding a solution to least-squares problems wi...
AbstractWe consider the problem of minimizing a supermodular set function whose special case is the ...
Submodular functions are powerful tools to model and solve either to optimality or approximately man...