摘 要
随着建筑行业规模的不断扩大和工程项目复杂性的持续提升,施工进度计划编制与动态控制成为确保项目按时交付、成本可控及质量达标的核心环节。本研究旨在针对传统施工进度管理中存在的计划编制不够精确、动态调整能力不足等问题,提出一种基于数据驱动与智能算法相结合的新型进度计划编制与动态控制方法。通过引入BIM技术、大数据分析以及人工智能优化算法,构建了多维度进度模拟模型,并开发了一套适用于复杂工程环境的动态监控与预警系统。研究结果表明,所提出的编制方法能够显著提高进度计划的科学性和可执行性,而动态控制系统则有效增强了对突发状况的响应能力和决策支持水平。此外,本研究还创新性地将机器学习应用于进度偏差预测,实现了对未来潜在风险的提前识别与干预。最终验证表明,该方法在实际工程中的应用不仅大幅缩短了工期延误率,还降低了资源浪费现象的发生概率。总体而言,本研究为现代施工管理提供了更加智能化、精细化的技术手段,对推动建筑行业的数字化转型具有重要意义。
关键词:施工进度管理;数据驱动;动态控制
ABSTRACT
With the continuous expansion of the construction industry and the increasing complexity of engineering projects, the preparation of construction schedules and their dynamic control have become core components in ensuring timely project delivery, cost control, and quality compliance. This study aims to address the limitations of traditional construction schedule management, such as insufficient accuracy in plan formulation and inadequate dynamic adjustment capabilities, by proposing a novel method that integrates data-driven approaches with intelligent algorithms for schedule preparation and dynamic control. By incorporating BIM technology, big data analytics, and artificial intelligence optimization algorithms, a multi-dimensional schedule simulation model was constructed, and a dynamic monitoring and early warning system tailored for complex engineering environments was developed. The results indicate that the proposed method significantly enhances the scientific rigor and executability of construction schedules, while the dynamic control system effectively improves responsiveness to unexpected events and decision-making support. Additionally, this research innovatively applies machine learning to schedule deviation prediction, enabling proactive identification and intervention of potential future risks. Final validation demonstrates that the application of this method in real-world projects not only substantially reduces schedule delay rates but also decreases the likelihood of resource wastage. Overall, this study provides modern construction management with more intelligent and refined technical tools, contributing significantly to the digital transformation of the construction industry.
Keywords: Construction Progress Management; Data-Driven; Dynamic Control
目 录
摘 要 I
ABSTRACT II
第1章 绪论 1
1.1 施工进度计划编制的研究背景与意义 1
1.2 动态控制方法的现状与发展趋势 1
1.3 本文研究方法与技术路线 2
第2章 施工进度计划编制的核心理论与方法 3
2.1 进度计划编制的基本原则与框架 3
2.2 关键路径法在进度计划中的应用 3
2.3 资源优化对进度计划的影响分析 4
2.4 不确定性因素下的进度计划调整策略 4
2.5 现代化工具在进度计划编制中的作用 5
第3章 施工进度动态控制的关键技术与实践 6
3.1 动态控制的基本概念与实施步骤 6
3.2 数据驱动的进度偏差分析方法 6
3.3 基于BIM技术的动态控制实现路径 7
3.4 风险管理在动态控制中的重要性 7
3.5 动态控制中的人力与资源协调机制 8
第4章 施工进度计划与动态控制的综合优化研究 9
4.1 进度计划与动态控制的协同关系 9
4.2 综合优化模型的设计与构建 9
4.3 案例分析:实际工程中的优化应用 10
4.4 优化过程中常见问题及解决对策 11
4.5 综合优化的效果评估与改进建议 11
结论 13
参考文献 14
致 谢 15
