Research on hoisting path planning and construction simulation technology for modular building units
模块化建筑单元吊装路径规划与施工仿真技术研究

摘要

模块化建筑在现代建筑行业中逐渐得到了广泛应用，其高度标准化、可预制化等特点显著提高了施工效率。在实际施工过程中，吊装作业是模块化建筑施工中的关键环节，而吊装路径的规划直接影响施工进度与安全性。本文主要探讨了模块化建筑单元的吊装路径规划与施工仿真技术，结合现代计算机技术与人工智能算法，提出了一种优化的吊装路径规划模型，并通过施工仿真技术对其进行验证。通过实验数据分析，本研究证明了该模型在实际应用中的高效性与可操作性，为模块化建筑施工过程中的吊装作业提供了理论支持与实践指导。研究指出在优化吊装路径规划方面仍然存在技术改进的空间，未来应进一步完善模型的智能化水平，提高实际施工的安全性和效率。

Abstract

Modular construction has been gradually widely applied in the modern construction industry. Its characteristics such as high standardization and prefabrication significantly improve construction efficiency. In actual construction processes, hoisting operations are a key link in modular building construction, and the planning of hoisting paths directly affects construction progress and safety. This paper mainly explores the hoisting path planning and construction simulation technology for modular building units. Combining modern computer technology and artificial intelligence algorithms, it proposes an optimized hoisting path planning model, which is verified through construction simulation technology. Experimental data analysis shows that the model is efficient and operable in practical applications, providing theoretical support and practical guidance for hoisting operations in modular building construction. The research points out that there is still room for technical improvement in optimizing hoisting path planning; in the future, efforts should be made to further improve the intelligence level of the model and enhance the safety and efficiency of actual construction.