We present a Branch-and-Cut algorithm where the volume algorithm is applied instead of the traditionally used dual simplex algorithm to the linear programming relaxations in the root node of the search tree. This means that we use fast approximate solutions to these linear programs instead of exact but slower solutions. We present computational results with the Steiner tree and Max-Cut problems. We show evidence that one can solve these problems much faster with the volume algorithm based Branch-and-Cut code than with a dual simplex based one. We discuss when the volume based approach might be more efficient than the simplex based approach
We present dual heuristics for the directed cut formulation of the Steiner problem in graphs. These ...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
The Knapsack Node Weighted Steiner Tree Problem (KNWSTP) is a generalization of the Steiner Tree Pro...
We present a Branch-and-Cut algorithm where the volume algorithm is applied instead of the traditio...
Abstract. We present a Branch-and-Cut algorithm where the volume algorithm is applied instead of the...
We present two theoretically interesting and empirically successful techniques for improving the lin...
We present two theoretically interesting and empirically successful techniques for improving the lin...
Recently, new techniques have been introduced to speed up dynamic programming algorithms on tree dec...
Recently, new techniques have been introduced to speed up dynamic programming algorithms on tree dec...
This paper presents an algorithm to obtain near optimal solutions for the Steiner tree problem in gr...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
Dynamic programming on tree decompositions is a frequently used approach to solve otherwise intracta...
Dynamic programming on tree decompositions is a frequently used approach to solve otherwise intracta...
AbstractGiven an undirected graph G with penalties associated with its vertices and costs associated...
AbstractThere are many (mixed) integer programming formulations of the Steiner problem in networks. ...
We present dual heuristics for the directed cut formulation of the Steiner problem in graphs. These ...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
The Knapsack Node Weighted Steiner Tree Problem (KNWSTP) is a generalization of the Steiner Tree Pro...
We present a Branch-and-Cut algorithm where the volume algorithm is applied instead of the traditio...
Abstract. We present a Branch-and-Cut algorithm where the volume algorithm is applied instead of the...
We present two theoretically interesting and empirically successful techniques for improving the lin...
We present two theoretically interesting and empirically successful techniques for improving the lin...
Recently, new techniques have been introduced to speed up dynamic programming algorithms on tree dec...
Recently, new techniques have been introduced to speed up dynamic programming algorithms on tree dec...
This paper presents an algorithm to obtain near optimal solutions for the Steiner tree problem in gr...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
Dynamic programming on tree decompositions is a frequently used approach to solve otherwise intracta...
Dynamic programming on tree decompositions is a frequently used approach to solve otherwise intracta...
AbstractGiven an undirected graph G with penalties associated with its vertices and costs associated...
AbstractThere are many (mixed) integer programming formulations of the Steiner problem in networks. ...
We present dual heuristics for the directed cut formulation of the Steiner problem in graphs. These ...
Branch & Reduce and dynamic programming on graphs of bounded treewidth are among the most common...
The Knapsack Node Weighted Steiner Tree Problem (KNWSTP) is a generalization of the Steiner Tree Pro...