Pierre Trudeau scite author profile

This paper examines a relaxed version of the generic vehicle routing problem. In this version, a delivery to a demand point can be split between any number of vehicles. In spite of this relaxation the problem remains computationally hard. The main contribution of this paper is in demonstrating the potential for cost savings through split deliveries. The solution scheme allowing for split deliveries is compared with a solution in which no split deliveries are allowed on a large set of 540 problems. Significant cost savings are realized both in terms of the total distance and the number of vehicles required. The vehicle routes constructed by our procedure, tend to cover cohesive geographical zones and retain some properties of optimal solutions.

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Split delivery routing

Dror

Trudeau

1990

Naval Research Logistics

241

124

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This article examines a relaxed version of the generic vehicle routing problem. In this version, a delivery to a demand point can be split between any number of vehicles. In spite of this relaxation the problem remains computationally hard. Since only small instances of the vehicle routing problem are known to be solved using exact methods, the vehicle route construction for this problem version is approached using heuristic rules. The main contribution of this article to the existing body of literature on vehicle routing issues in (a) is presenting a new vehicle routing problem amenable to practical applications, and (b) demonstrating the potential for cost savings over similar "traditional" vehicle routing when implementing the model and solutions presented here. The solution scheme allowing for split deliveries is compared with a solution in which no split deliveries are allowed. The comparison is conducted on six sets of 30 problems each for problems of size 75, 115, and 150 demand points (all together 540 problems). For very small demands (up to 10% of vehicle's capacity) no significant difference in solutions is evident for both solution schemes. For the other five problem sets for which point demand exceeds 10% of vehicle's capacity, very significant cost savings are realized when allowing split deliveries. The savings are significant both in the total distance and the number of vehicles required. The vehicles' routes constructed by our procedure tend to cover cohesive geographical zones and retain some properties of optimal solutions.

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Vehicle Routing with Stochastic Demands: Properties and Solution Frameworks

Dror

Laporte

Trudeau

1989

Transportation Science

240

112

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This paper considers the vehicle routing problem with stochastic demands. The objective is to provide an overview of this problem, and to examine a variety of solution methodologies. The concepts and the main issues are reviewed along with some properties of optimal solutions. The existing stochastic mathematical programming formulations are presented and compared and a new formulation is proposed. A new solution framework for the problem using Markovian decision processes is then presented.

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Vehicle routing with split deliveries

Dror

Laporte

Trudeau

1994

Discrete Applied Mathematics

196

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Stochastic vehicle routing with modified savings algorithm

Dror

Trudeau²

1986

European Journal of Operational Research

155

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Pierre Trudeau

Savings by Split Delivery Routing

Split delivery routing

Vehicle Routing with Stochastic Demands: Properties and Solution Frameworks

Vehicle routing with split deliveries

Stochastic vehicle routing with modified savings algorithm

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