A distributed approach for the resolution of a stochastic dial a Ride Problem

Brahim Issaoui, I. Zidi, K. Zidi, K. Ghédira
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引用次数: 5

Abstract

The paper describes a multi-objective mathematical model for the Dial a Ride Problem (DRP) and an application of Multi-Objective Simulated Annealing (MOSA) to solve it. DRP is to take over the passenger from a place of departure to a place of arrival. In the DRP, passengers send transportation requests to an operator. The ultimate aim is to offer an alternative to displacement optimized individually and collectively. The DRP is classified as NP-hard problem that's why most research has been concentrated on the use of approximate methods to solve it. Indeed the DRP is a multi-criteria problem, the proposed solution which aims to reduce both route duration in response to a certain quality of service provided. Actually, during the system of transport on demand (TOD) there are many problems can inhibit the proper functioning of the system, such as failure of the car and bottling etc. We propose a resolution of the dynamic DRP using a service of TOD called TOD with Simulated Annealing (TOD-SA). The solution proposed in this paper enables both a reduction of travel time also the distance traveled.
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随机拨乘问题的分布式求解方法
本文提出了一种多目标座驾问题的数学模型,并应用多目标模拟退火法求解了座驾问题。DRP是将旅客从出发地接往到达地。在DRP中,乘客向操作员发送运输请求。最终目标是提供一种替代个人和集体优化的位移。DRP被归类为np困难问题,这就是为什么大多数研究都集中在使用近似方法来解决它。实际上,DRP是一个多准则问题,所提出的解决方案旨在减少路由持续时间,以响应所提供的一定质量的服务。实际上,在按需运输(TOD)系统中存在许多问题,如车辆故障、装瓶故障等,会影响系统的正常运行。我们提出了一个动态DRP的解决方案,使用TOD的服务,称为TOD与模拟退火(TOD- sa)。本文提出的解决方案既可以减少旅行时间,也可以减少旅行距离。
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