地理分布维护任务的多任务调度

IF 1.6 3区 工程技术 Q4 ENGINEERING, INDUSTRIAL
Hamed Allaham, D. Dalalah
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引用次数: 7

摘要

由于预防性维护对系统中组件的可维护性具有积极的影响,因此预防性维护在地理分布的基础设施系统(如商业建筑中的公用事业网络)中发挥着重要作用。这种系统与传统方案的不同之处在于路线和技术人员的旅行时间。此外,商业建筑的维修任务持续时间短,在不同建筑内部和不同建筑之间的空间分布,这类问题还没有得到适当的研究。虽然在有限的时间和能力限制下,将特定的任务单独分配给多技能团队并非易事,但在执行日常维护任务时考虑到旅行路线、持续时间和服务水平,这个问题就变得更具挑战性。为了解决这个问题,我们提出了一个考虑上述设置的混合整数线性规划模型。模型精确的解决方案建议协作选择,包括维护团队的数量、选择的任务、路线、任务时间表,所有这些都详细到天数和团队。这种模式将降低人工成本、更换零件的成本、对服务水平的惩罚和旅行时间。该优化模型已经在阿联酋的实际维护提供商的不同维护场景中进行了测试。使用CPLEX求解器,结果显示了令人鼓舞的时间利用率,最少的路由计划和使用最少数量的团队的高服务水平。为了进一步的敏感性分析,我们测试了不同任务分类、持续时间和成本设置的不同旅行速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MILP of multitask scheduling of geographically distributed maintenance tasks
Due to its proactive impact on the serviceability of components in a system, preventive maintenance plays an important role particularly in systems of geographically spread infrastructure such as utilities networks in commercial buildings. What makes such systems differ from the classical schemes is the routing and technicians' travel times. Besides, maintenance in commercial buildings is characterized by its short tasks’ durations and spatial distribution within and between different buildings, a class of problems that has not been suitably investigated. Although it is not trivial to assign particular duties solely to multi-skilled teams under limited time and capacity constraints, the problem becomes more challenging when travel routes, durations and service levels are considered during the execution of the daily maintenance tasks. To address this problem, we propose a Mixed Integer Linear Programming Model that considers the above settings. The model exact solution recommends collaborative choices that include the number of maintenance teams, the selected tasks, routes, tasks schedules, all detailed to days and teams. The model will reduce the cost of labor, replacement parts, penalties on service levels and travel time. The optimization model has been tested using different maintenance scenarios taken from a real maintenance provider in the UAE. Using CPLEX solver, the findings demonstrate an inspiring time utilization, schedules of minimal routing and high service levels using a minimum number of teams. Different travel speeds of diverse assortment of tasks, durations and cost settings have been tested for further sensitivity analysis.
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来源期刊
CiteScore
5.70
自引率
9.10%
发文量
35
审稿时长
20 weeks
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