BIM集成环境下大型项目基于智能位置的施工规划

Veljko Janjić, Igor Osmokrović, Jovan Marković, Igor Peško, Mirjana Terzić
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引用次数: 0

摘要

建筑行业在执行延迟和预算超支方面的结果令人不满意,这是由于规划不足、沟通不畅和效率问题造成的,而它是数字化程度最低的行业之一。经过质量验证的设计,详细的施工进度计划和精确的数据,以及实施良好的进度监控过程是成功的数据驱动施工管理的基础。集成建筑信息模型(BIM)被认为是最有可能对行业产生重大影响的技术。BIM增加了项目设计早期阶段的工作量,改善了利益相关者的沟通,及早发现和解决设计问题,从而防止潜在的损失。此外,在成本最密集的项目执行阶段,BIM往往没有得到充分实施或被忽视,从而失去了应用BIM工具和方法改善施工管理流程的巨大潜力。本文分析了详细施工进度计划的制定,该计划考虑了规划过程中需要考虑的多个领域。传统上,特别是对于大型项目,这是一个需要知识、专注和大量数据输入的努力密集型过程。与建筑业相反,制造业的生产率相当令人羡慕。因此,作者分析了装配线概念和精益原则,并将其应用于制造业,将其融入BIM环境中,以改善施工进度。本文提出了一种先进的BIM模型衍生的基于位置的施工规划方法(BIM- lbp),用于在集成的4D和5D BIM环境中开发施工进度,充分利用可用的BIM模型数据。
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Smart Location-Based Construction Planning of Large-Scale Projects in the Integrated BIM Environment
Construction industry records unsatisfying results in terms of execution delays and budget overruns, which are result of insufficient planning, miscommunication, and efficiency issues, while it is among the least digitized sectors. Quality proven design, detailed construction schedule with precise data, and well-implemented progress monitoring process are the foundations of successful data-driven construction management. Integrated Building Information Modelling (BIM) is recognized as the technology that will most likely highly impact the industry. BIM increases the effort in the early phases of project design, improving stakeholders’ communication, early identifying and resolving design issues therefore preventing potential losses. Further, at the most cost-intensive project execution phase, BIM is often inadequately implemented or neglected, losing the huge potential of applying the BIM tools and methods for improving construction management processes. This paper analyses development of detailed construction schedule which considers multiple domains that need to be included in the planning process. Traditionally, especially for large-scale projects, it is an effort-intensive process that requires knowledge, focus and vast data inputs. Contrary to the construction industry, productivity in the manufacturing sector is quite enviable. Therefore, authors analyzed the assembly line concepts and Lean principles, applied in manufacturing, fitting them into the BIM environment to improve construction scheduling. The paper presents an advanced BIM model-derived location-based construction planning methodology (BIM-LBP) for development of construction schedules in the integrated 4D and 5D BIM environment making the most of available BIM model data.
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