Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a combinatorial optimization problem. Equivalently, the feasible domain of the considered problem is restricted to stable sets in the given conflict graph. After reviewing in our presentation results from the literature for bin packing and scheduling problems with conflict graphs, we first consider the classical 0-1 knapsack problem. Adding a conflict graph makes the problem strongly NP-hard but for three special graph classes, namely trees, graphs with bounded treewidth and chordal graphs, we can develop pseudopolynomial algorithms. From these we can easily derive fully polynomial time approximation schemes (FPTAS). Secondly, we study the min...
In this thesis we study the quadratic bottleneck combinatorial optimization problem (QBCOP) which ge...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
AbstractWe study the minimum spanning tree problem, the maximum matching problem and the shortest pa...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
\u3cp\u3eWe focus on an extension of the assignment problem with additional conflict (pair) constrai...
In this thesis we study the quadratic bottleneck combinatorial optimization problem (QBCOP) which ge...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
Conflict graphs impose disjunctive constraints for pairs of jobs, items, edges or other objects in a...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
AbstractWe consider the minimum spanning tree problem with conflict constraints (MSTC). The problem ...
AbstractWe study the minimum spanning tree problem, the maximum matching problem and the shortest pa...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
We study the minimum spanning tree problem, the maximum matching problem and the shortest path probl...
\u3cp\u3eWe focus on an extension of the assignment problem with additional conflict (pair) constrai...
In this thesis we study the quadratic bottleneck combinatorial optimization problem (QBCOP) which ge...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
We study the knapsack problem with conflict graph (KPCG), an extension of the 0-1 knapsack problem, ...
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