We consider the vehicle routing problem where one can choose among vehicles with different costs and capacities to serve the trips. We develop six different formulations: the first four based on Miller-Tucker-Zemlin constraints and the last two based on flows. We compare the linear programming bounds of these formulations. We derive valid inequalities and lift some of the constraints to improve the lower bounds. We generalize and strengthen subtour elimination and generalized large multistar inequalities
In the well-known vehicle routing problem (VRP), a set of identical vehicles located at a central de...
The Capacitated Vehicle Routing Problem is a much-studied (and strongly NP-hard) combinatorial optim...
We introduce new valid inequalities for the two-echelon variant of the Capacitated Vehicle Routing P...
AbstractWe present lower bounds for the vehicle routing problem (VRP) with and without split deliver...
The solution of a vehicle routing problem calls for the determination of a set of routes, each perfo...
Abstract In this thesis, models have been formulated and mathematical optimization methods developed...
© 2017 Dr. Edward LamVehicle routing problems are combinatorial optimization problems that aspire to...
This paper considers the classical vehicle routing problem (VRP) where the vehicle capacity is not f...
Ochi’s approach solves the heterogenous vehicle routing problem using the constraint having fixed co...
In the well-known Vehicle Routing Problem (VRP) a set of identical vehicles, based at a central depo...
In this paper, we compare different formulations of the multi-depot fleet size and mix vehicle routi...
We present a generic branch-and-cut framework for solving routing problems with multiple depots and ...
International audienceIn the context of this presentation, we focus on Asymmetric HVRP where the sho...
We propose compact formulations for the symmetric and asymmetric capacitated vehicle routing problem...
It has been around thirty years since the heterogeneous vehicle routing problem was introduced, and ...
In the well-known vehicle routing problem (VRP), a set of identical vehicles located at a central de...
The Capacitated Vehicle Routing Problem is a much-studied (and strongly NP-hard) combinatorial optim...
We introduce new valid inequalities for the two-echelon variant of the Capacitated Vehicle Routing P...
AbstractWe present lower bounds for the vehicle routing problem (VRP) with and without split deliver...
The solution of a vehicle routing problem calls for the determination of a set of routes, each perfo...
Abstract In this thesis, models have been formulated and mathematical optimization methods developed...
© 2017 Dr. Edward LamVehicle routing problems are combinatorial optimization problems that aspire to...
This paper considers the classical vehicle routing problem (VRP) where the vehicle capacity is not f...
Ochi’s approach solves the heterogenous vehicle routing problem using the constraint having fixed co...
In the well-known Vehicle Routing Problem (VRP) a set of identical vehicles, based at a central depo...
In this paper, we compare different formulations of the multi-depot fleet size and mix vehicle routi...
We present a generic branch-and-cut framework for solving routing problems with multiple depots and ...
International audienceIn the context of this presentation, we focus on Asymmetric HVRP where the sho...
We propose compact formulations for the symmetric and asymmetric capacitated vehicle routing problem...
It has been around thirty years since the heterogeneous vehicle routing problem was introduced, and ...
In the well-known vehicle routing problem (VRP), a set of identical vehicles located at a central de...
The Capacitated Vehicle Routing Problem is a much-studied (and strongly NP-hard) combinatorial optim...
We introduce new valid inequalities for the two-echelon variant of the Capacitated Vehicle Routing P...