The combinatorial optimization literature contains a multitude of polynomially solvable special cases of the traveling salesman problem (TSP) which result from imposing certain combinatorial restrictions on the underlying distance matrices. Many of these special cases have the form of so-called four-point conditions: inequalities that involve the distances between four arbitrary cities. In this paper we classify all possible four-point conditions for the TSP with respect to computational complexity, and we determine for each of them whether the resulting special case of the TSP can be solved in polynomial time or whether it remains NP-hard
The approximability of multi-criteria combinatorial problems motivated a lot of articles. However, t...
Given a set of cities, and the cost of traveling between each pair of them, the Traveling Salesman P...
In this note, we show that the Traveling Salesman Problem cannot be solved in polynomial-time on a c...
The combinatorial optimization literature contains a multitude of polynomially solvable special case...
In most of the known polynomially solvable cases of the symmetric travelling salesman problem (TSP) ...
In most of the known polynomially solvable cases of the symmetric travelling salesman problem (TSP) ...
The Traveling Salesman Problem belongs to the most important and most investigated problems in combi...
The Travelling Salesman Problem (TSP) is a classical NP-hard optimisation problem. There exist, howe...
In TSP with profits we have to find an optimal tour and a set of customers satisfying a specific con...
The traveling salesman problem (TSP) belongs to the most basic, most important, and most investigate...
The traveling salesman problem (TSP) belongs to the most basic, most important, and most investigate...
The Traveling Salesman Problem or TSP is probably the best known combinatorial optimisation problem....
We analyze two classic variants of the TRAVELING SALESMAN PROBLEM (TSP) using the toolkit of fine-gr...
The Traveling Salesman Problem belongs to the most important and most investigated problems in combi...
The approximability of multi-criteria combinatorial problems motivated a lot of articles. However, t...
Given a set of cities, and the cost of traveling between each pair of them, the Traveling Salesman P...
In this note, we show that the Traveling Salesman Problem cannot be solved in polynomial-time on a c...
The combinatorial optimization literature contains a multitude of polynomially solvable special case...
In most of the known polynomially solvable cases of the symmetric travelling salesman problem (TSP) ...
In most of the known polynomially solvable cases of the symmetric travelling salesman problem (TSP) ...
The Traveling Salesman Problem belongs to the most important and most investigated problems in combi...
The Travelling Salesman Problem (TSP) is a classical NP-hard optimisation problem. There exist, howe...
In TSP with profits we have to find an optimal tour and a set of customers satisfying a specific con...
The traveling salesman problem (TSP) belongs to the most basic, most important, and most investigate...
The traveling salesman problem (TSP) belongs to the most basic, most important, and most investigate...
The Traveling Salesman Problem or TSP is probably the best known combinatorial optimisation problem....
We analyze two classic variants of the TRAVELING SALESMAN PROBLEM (TSP) using the toolkit of fine-gr...
The Traveling Salesman Problem belongs to the most important and most investigated problems in combi...
The approximability of multi-criteria combinatorial problems motivated a lot of articles. However, t...
Given a set of cities, and the cost of traveling between each pair of them, the Traveling Salesman P...
In this note, we show that the Traveling Salesman Problem cannot be solved in polynomial-time on a c...