可持续总生产计划的混合双目标马尔可夫链优化模型

A Hybrid Biobjective Markov Chain Based Optimization Model for Sustainable Aggregate Production Planning

IEEE Transactions on Engineering Management · 2022
被引 16
ABS 3

中文导读

研究了一个考虑外包和工人技能水平的可持续总生产计划问题,用连续时间马尔可夫链描述库存决策过程,构建了混合双目标非线性规划模型,同时最小化总成本和环境污染,数值实验表明能在65秒内得到可行解。

Abstract

This research addresses the sustainable aggregate production planning problem by considering the outsourcing option and workforce skill levels as well as taking a Markov process approach for the inventory level. For this purpose, a hybrid biobjective mixed-integer nonlinear programming model featuring a continuous-time Markov chain to accommodate the inventory decision process is developed. The proposed Markov chain approach efficiently describes system dynamics modeling of the production system through a stochastic process. The objective functions are to minimize total cost and total environmental pollution at the same time. To validate the applicability of the methodology and to evaluate the model complexity, three numerical examples are generated based on one of the previous studies in the literature. It is demonstrated that the suggested methodology is able to come up with the final feasible solution based on optimal inventory decisions in less than 65 s. Finally, a number of sensitivity analyses are presented to study the behavior of the objectives under real-world instability and discuss the practical implications and managerial insights. As one of the main findings, it is revealed that the objective functions have no sensitivity to some change intervals of the parameters, which can be analyzed more earnestly by the management in case of the resource allocation process.

生产计划供应链管理运筹学可持续制造马尔可夫决策过程