Metaheuristic Algorithms for the Optimization of Integrated Production Scheduling and Vehicle Routing Problems in Supply Chains

D. Markovi, Ć. AleksandarSTANKOVI, Ć. DraganMARINKOVI, AR DraganPAMUČ
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Abstract

: This paper examines the challenge of integrated production and distribution, aiming to deliver products to customers precisely on time. Customers, situated within the transportation network, have predefined requirements regarding demand volume and time frames. In the first phase ( F 1 ), the problem of planning and allocation of resources is presented as FJSP, while the second phase ( F 2 ) addresses the vehicle routing problem as CVRPTW. The first phase, F 1 , aims to optimize manufacturing processes by appropriately scheduling production tasks to maximize productivity and minimize the time of task execution on machines. Phase 2, F 2 , encompasses the process of distribution to customers, seeking to minimize the number of vehicles, delivery time, and overall distance travelled. As both problems are among the most challenging in combinatorial optimization, integrating these phases into a single supply chain system poses a significant challenge in problem-solving. A mathematical formulation has been developed to include planning and task allocation in production, as well as vehicle routing, to obtain an optimal solution to the integrated problem. The input data used in the observed case study represent real data in both the first and second phases, forming one integrated supply chain system. Experimental results support the applied methodology.
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优化供应链中综合生产调度和车辆路线问题的元启发式算法
:本文探讨了生产与配送一体化所面临的挑战,其目标是将产品准时送到客户手中。位于运输网络内的客户对需求量和时限有预先确定的要求。在第一阶段(F 1)中,资源规划和分配问题以 FJSP 的形式呈现,而第二阶段(F 2)则以 CVRPTW 的形式解决车辆路由问题。第一阶段(F 1)的目标是通过合理安排生产任务来优化生产流程,从而最大限度地提高生产率,并最大限度地减少任务在机器上的执行时间。第二阶段,即 F 2,包括向客户配送的过程,寻求车辆数量、配送时间和总路程的最小化。由于这两个问题都是组合优化中最具挑战性的问题,因此将这些阶段整合到一个单一的供应链系统中对解决问题提出了巨大的挑战。我们开发了一种数学公式,将生产中的计划和任务分配以及车辆路线纳入其中,以获得综合问题的最优解。观察案例研究中使用的输入数据代表了第一和第二阶段的真实数据,形成了一个集成的供应链系统。实验结果支持所应用的方法。
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