Cataloged from PDF version of article.We propose a simple and a quite efficient separation procedure to identify cover inequalities for the multidimensional knapsack problem. It is based on the solution of a conventional integer programming model. Solving this kind of integer programs is usually considered expensive and the proposed method may have been overlooked because of this assumption. The results of our experiments with a small set of randomly generated problems and problems taken from the literature indicate that the method may be a reasonable alternative to the one currently in use. 2005 Elsevier Ltd. All rights reserved
AbstractExtending our work on second-order cover cuts [F. Glover, H.D. Sherali, Second-order cover c...
International audienceMulti-objective multi-dimensional knapsack problems (pOmDKP) are widely used ...
The multidimensional knapsack problem (MKP) is a classic problem in combinatorial optimisation. Seve...
We propose a simple and a quite efficient separation procedure to identify cover inequalities for th...
International audienceWe present an exact separation scheme for identifying most violated extended c...
This paper presents both approximate and exact merged knapsack cover inequalities, a class of cuttin...
Integer Programming is used to solve numerous optimization problems. This class of mathematical mode...
AbstractCover inequalities are commonly used cutting planes for the 0–1 knapsack problem. This paper...
Valid inequalities for 0-1 knapsack polytopes often prove useful when tackling hard 0-1 Linear Progr...
The 0–1 multidimensional knapsack problem (0–1 MKP) is a well-known (and strongly NP-hard) combinato...
We investigate the problem of separating cover inequalities of maximum-depth exactly. We propose a p...
Master of ScienceDepartment of Industrial & Manufacturing Systems EngineeringTodd W. EastonInteger p...
The 0-1 Multidimensional Knapsack Problem (0-1 MKP) is a well- known (and strongly N P -hard) combi...
AbstractThree regions arising as surrogates in certain network design problems are the knapsack set ...
Many problems arising in OR/MS can be formulated as mixed-integer linear programs (MILPs): see the a...
AbstractExtending our work on second-order cover cuts [F. Glover, H.D. Sherali, Second-order cover c...
International audienceMulti-objective multi-dimensional knapsack problems (pOmDKP) are widely used ...
The multidimensional knapsack problem (MKP) is a classic problem in combinatorial optimisation. Seve...
We propose a simple and a quite efficient separation procedure to identify cover inequalities for th...
International audienceWe present an exact separation scheme for identifying most violated extended c...
This paper presents both approximate and exact merged knapsack cover inequalities, a class of cuttin...
Integer Programming is used to solve numerous optimization problems. This class of mathematical mode...
AbstractCover inequalities are commonly used cutting planes for the 0–1 knapsack problem. This paper...
Valid inequalities for 0-1 knapsack polytopes often prove useful when tackling hard 0-1 Linear Progr...
The 0–1 multidimensional knapsack problem (0–1 MKP) is a well-known (and strongly NP-hard) combinato...
We investigate the problem of separating cover inequalities of maximum-depth exactly. We propose a p...
Master of ScienceDepartment of Industrial & Manufacturing Systems EngineeringTodd W. EastonInteger p...
The 0-1 Multidimensional Knapsack Problem (0-1 MKP) is a well- known (and strongly N P -hard) combi...
AbstractThree regions arising as surrogates in certain network design problems are the knapsack set ...
Many problems arising in OR/MS can be formulated as mixed-integer linear programs (MILPs): see the a...
AbstractExtending our work on second-order cover cuts [F. Glover, H.D. Sherali, Second-order cover c...
International audienceMulti-objective multi-dimensional knapsack problems (pOmDKP) are widely used ...
The multidimensional knapsack problem (MKP) is a classic problem in combinatorial optimisation. Seve...