New formulations are presented for the Travelling Salesman problem, and their relationship to previous formulations is investigated. The new formulations are extended to include a variety of transportation scheduling problems, such as the Multi-Travelling Salesman problem, the Delivery problem, the School Bus problem and the Dial-a-Bus problem. A Benders decomposition procedure is applied on the new formulations and the resulting computational rocedure is seen to be identical to previous methods for solving the Travelling Salesman problem. Based on the Lagrangean Relaxation method, a new procedure is suggested for generating lagrange multipliers for a subgradient optimization procedure. The effectiveness of the bounds obtained is demonstrat...
A formulation of the traveling salesman problem with more than one salesman is offered. The particul...
We consider the problem of finding the minimum number of vehicles required to visit once a set of no...
This paper presents a new model and branch-and-bound algorithm for the m-travelling salesmen problem...
A new optimal solution method for the Multiple Travelling Salesman Problem is developed. A Lagrange...
This paper presents a self-contained introduction into algorithmic and computational aspects of the ...
One of the most investigated topics in operations research is the Traveling Salesman Problem (TSP) a...
The Traveling Salesman Problem or TSP is probably the best known combinatorial optimisation problem....
A constructive method is presented for optimizing exactly the Traveling Salesman Problem as a sequen...
In this paper, we use a reformulation of the symmetric and the asymmetric travelling salesman proble...
The determination of true optimum solutions of combinatorial optimization problems is seldomly requi...
AbstractThis paper presents a new model and branch-and-bound algorithm for the asymmetric m-travelli...
AbstractThe paper presents new lower bounding and reduction procedures for the symmetric travelling ...
International audienceIn this paper we present a new formulation for the Time-Dependent Travelling S...
This paper reviews the state of the art in enumerative solution methods for the traveling salesman p...
This paper presents a self-contained introduction into algorithmic and com-putational aspects of the...
A formulation of the traveling salesman problem with more than one salesman is offered. The particul...
We consider the problem of finding the minimum number of vehicles required to visit once a set of no...
This paper presents a new model and branch-and-bound algorithm for the m-travelling salesmen problem...
A new optimal solution method for the Multiple Travelling Salesman Problem is developed. A Lagrange...
This paper presents a self-contained introduction into algorithmic and computational aspects of the ...
One of the most investigated topics in operations research is the Traveling Salesman Problem (TSP) a...
The Traveling Salesman Problem or TSP is probably the best known combinatorial optimisation problem....
A constructive method is presented for optimizing exactly the Traveling Salesman Problem as a sequen...
In this paper, we use a reformulation of the symmetric and the asymmetric travelling salesman proble...
The determination of true optimum solutions of combinatorial optimization problems is seldomly requi...
AbstractThis paper presents a new model and branch-and-bound algorithm for the asymmetric m-travelli...
AbstractThe paper presents new lower bounding and reduction procedures for the symmetric travelling ...
International audienceIn this paper we present a new formulation for the Time-Dependent Travelling S...
This paper reviews the state of the art in enumerative solution methods for the traveling salesman p...
This paper presents a self-contained introduction into algorithmic and com-putational aspects of the...
A formulation of the traveling salesman problem with more than one salesman is offered. The particul...
We consider the problem of finding the minimum number of vehicles required to visit once a set of no...
This paper presents a new model and branch-and-bound algorithm for the m-travelling salesmen problem...