Chance-constrained formulations in rolling horizon production planning: an experimental study
研究了两种机会约束生产规划模型在滚动时域环境下的表现,发现它们能显著减少计划变动(神经质),同时改善成本和服务水平。
Rolling horizon procedures, where an infinite horizon problem is approximated by the solution to a sequence of finite horizon problems, are common in production planning practice and research. However, these procedures also lead to frequent changes in planned release and production quantities, a phenomenon referred to as nervousness. We examine the performance of two chance-constrained production planning models developed for systems with stochastic demand in a rolling horizon environment, and find that these formulations significantly reduce planned release changes (nervousness) while also improving cost and service-level performance.