元启发式
调度(生产过程)
车辆路径问题
运筹学
计算机科学
布线(电子设计自动化)
离散事件仿真
服务(商务)
事件(粒子物理)
自适应路由
工程类
模拟
运营管理
计算机网络
静态路由
路由协议
经济
人工智能
经济
量子力学
物理
作者
Christian Fikar,Ángel A. Juan,Enoc Martínez Padró,Patrick Hirsch
标识
DOI:10.1504/ejie.2016.076382
摘要
It is common practice in the home service industry that each staff member operates a separate vehicle to visit customers. Facilitating trip sharing and walking policies allows reducing the number of required vehicles, however, often does not succeed due to operational difficulties in routing and planning. In particular, coordinating arrival times of staff members and vehicles at pickup locations introduces major complexity. Previous work in this field focusses on static problem settings where all data is known in advance. Real world-operations, however, are dynamic as cancellations or new requests can happen at any time. This requires decisions to be made in real-time. To assist planners, we propose a flexible discrete-event driven metaheuristic to deal with dynamic routing and scheduling scenarios using combined trip sharing and walking. The computational experiments show that our approach generates solutions in a fast and efficient way, thus, facilitating real-world operations and enabling rescheduling and rerouting. [Received 23 May 2015; Revised 14 October 2015; Accepted 8 December 2015]
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