面向含禁止时间窗的工程组合的两阶段调度框架

A Two-Phase Scheduling Framework for Construction Program With Forbidden Time Windows

IEEE Transactions on Engineering Management · 2025
被引 4
ABS 3

中文导读

针对多个项目组成的工程组合在恶劣环境下可能面临禁止时间窗约束的问题,提出一个两阶段调度框架,先预测生成基准计划,再在执行中动态调整,经大型水利工程案例验证可降低资源峰值需求和投资成本。

Abstract

A construction program composed of multiple projects is often exposed to a harsh environment. Some projects in the construction program might face forbidden time window constraints (e.g., periodic typhoon season), thereby influencing client's overall schedule. The construction program with forbidden time windows significantly challenges the traditional scheduling methods. To solve this problem, a two-phase scheduling framework is proposed. Before the construction program execution, a predictive scheduling method is used to generate an optimal baseline schedule. From the client perspective, each project of the construction program is considered as a node in the schedule network. During the execution, a reactive scheduling method is applied to adjust the baseline schedule when deviations occur. To validate the method, numerical experiments are conducted for a real-life case of a large water conservancy construction program. The results show that the peak demand of self-producing resource and the production system investment cost is reduced by 9.09% and 9.05%, respectively, compared with the critical path method. The framework provides clients with an effective tool for scheduling programs with forbidden time windows.

工程管理调度优化施工管理运筹管理