Add to ORKGInteger optimization is in the class of NP-hard problems, and it is very time and memory intensive to find optimal solutions. In this thesis an algorithm will be developed to improve the efficiency in solving a linear integer program if there are symmetries in the problem, that is, variables can be permuted without changing the integer program. Using the group of symmetries, the size of the feasible set can be restricted. For the smaller optimization problem, common solution methods will be able to find the optimal solutions faster than for the original problem. The set of all optimal solutions can be generated from the determined ones by applying the symmetry group
AbstractThis paper presents techniques for handling symmetries in integer linear programs where vari...
This dissertation explores different approaches to and applications of symmetry reduction in convex ...
Handling symmetries in optimization problems is essential for devising efficient solution methods. I...
An integer linear program (ILP) is symmetric if its variables can be permuted without changing the s...
An integer linear program (ILP) is symmetric if its variables can be permuted without changing the s...
This paper deals with exploiting symmetry for solving linear and integer programming problems. Basic...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch)This paper deals w...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch)This paper deals w...
Symmetries in constraint satisfaction or combinatorial optimization problems can cause considerable...
A combinatorial design problem is considered which can be modelled as a constraint satisfaction prob...
This thesis explores two algorithmic approaches for exploiting symmetries in linear and integer line...
This paper describes components of a branch-and-cut algorithm for solving integer linear programs ha...
© 2011 Dr. Geoffrey G. ChuCombinatorial Optimization is an important area of computer science that h...
Constraint satisfaction and optimisation problems occur frequently in industry and are usually compu...
The ability to efficiently solve hard combinatorial optimization problems is a key prerequisite to v...
AbstractThis paper presents techniques for handling symmetries in integer linear programs where vari...
This dissertation explores different approaches to and applications of symmetry reduction in convex ...
Handling symmetries in optimization problems is essential for devising efficient solution methods. I...
An integer linear program (ILP) is symmetric if its variables can be permuted without changing the s...
An integer linear program (ILP) is symmetric if its variables can be permuted without changing the s...
This paper deals with exploiting symmetry for solving linear and integer programming problems. Basic...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch)This paper deals w...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch)This paper deals w...
Symmetries in constraint satisfaction or combinatorial optimization problems can cause considerable...
A combinatorial design problem is considered which can be modelled as a constraint satisfaction prob...
This thesis explores two algorithmic approaches for exploiting symmetries in linear and integer line...
This paper describes components of a branch-and-cut algorithm for solving integer linear programs ha...
© 2011 Dr. Geoffrey G. ChuCombinatorial Optimization is an important area of computer science that h...
Constraint satisfaction and optimisation problems occur frequently in industry and are usually compu...
The ability to efficiently solve hard combinatorial optimization problems is a key prerequisite to v...
AbstractThis paper presents techniques for handling symmetries in integer linear programs where vari...
This dissertation explores different approaches to and applications of symmetry reduction in convex ...
Handling symmetries in optimization problems is essential for devising efficient solution methods. I...