Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, which turns out to be extremely challenging in practice. In particular, for most of its benchmark instances, even the order of magnitude of the optimal solution value is unknown, as testified by the surveys on the problem that contain tables in which the best known solution value often has one more digit than the best known lower bound value. In this paper, we propose a linear-programming based approach to compute lower bounds on the optimum. This allows us, for the first time, to show that the best known solutions are indeed not far from optimal for most of the benchmark instances
none5We solve for the first time to proven optimality the small instances in the classical literatur...
We solve for the first time to proven optimality the small instances in the classical literature ben...
This paper deals with the Minimum Linear Arrangement problem from an experimental point of view. U...
none3Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 196...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
none3Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 196...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
AbstractThe linear arrangement problem is a fundamental problem that arises in many practical applic...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
The subject of this thesis is the Minimum Linear Arrangement Problem, a classical problem in combina...
We solve for the first time to proven optimality the small instances in the classical literature ben...
none5We solve for the first time to proven optimality the small instances in the classical literatur...
We solve for the first time to proven optimality the small instances in the classical literature ben...
This paper deals with the Minimum Linear Arrangement problem from an experimental point of view. U...
none3Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 196...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
none3Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 196...
Minimum Linear Arrangement is a classical basic combinatorial optimization problem from the 1960s, w...
AbstractThe linear arrangement problem is a fundamental problem that arises in many practical applic...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
none4Given a graph G=(V,E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a...
The subject of this thesis is the Minimum Linear Arrangement Problem, a classical problem in combina...
We solve for the first time to proven optimality the small instances in the classical literature ben...
none5We solve for the first time to proven optimality the small instances in the classical literatur...
We solve for the first time to proven optimality the small instances in the classical literature ben...
This paper deals with the Minimum Linear Arrangement problem from an experimental point of view. U...