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基于BIM与数字孪生的建筑工程全过程质量协同控制模型研究OA

中文摘要英文摘要

该文旨在构建一个融合建筑信息模型与数字孪生技术的建筑工程全过程质量协同控制模型.该模型以 BIM为全要素信息载体,以数字孪生为虚实交互与迭代优化的核心驱动,贯穿策划决策、设计、施工和运维等工程全生命周期.通过阐述模型的理论基础、架构设计(包括感知层、数据层、模型层、功能层与应用层)及其协同工作机制,重点分析该模型在质量信息统一表达、过程动态模拟与预控、实时监测与智能诊断、多方协同决策与追溯等方面的应用价值.

This study aims to develop a comprehensive quality collaborative control model for construction projects that integrates Building Information Modeling(BIM)with digital twin technology.The model utilizes BIM as the information carrier for all elements and employs digital twin technology as the core driver for virtual-real interaction and iterative optimization,spanning the entire project lifecycle from planning and decision-making through design,construction,and operation.By elaborating on the theoretical foundation,architectural design(including perception layer,data layer,model layer,functional layer,and application layer),and collaborative working mechanisms,this paper focuses on analyzing the model's application value in unified quality information representation,process dynamic simulation and pre-control,real-time monitoring and intelligent diagnosis,multi-party collaborative decision-making,and traceability.

杨继明

淄博市建筑工程质量安全环保监督站,山东 淄博 255000

建筑与水利

建筑信息模型数字孪生全过程质量管理协同控制数据驱动

Building Information Modeling(BIM)digital twinwhole-process quality managementcollaborative controldata-driven

《科技创新与应用》 2026 (16)

96-99,4

10.19981/j.CN23-1581/G3.2026.16.020

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