School of Architecture and Urban Planning, Guangzhou University, Guangzhou 510006, Guangdong, China.
Guangdong Provincial Institute of Cultural Relics and Archaeology, Guangzhou 510075, Guangdong, China.
Comput Intell Neurosci. 2021 Dec 31;2021:3292376. doi: 10.1155/2021/3292376. eCollection 2021.
Nowadays, with the leap-forward development of computer technology and the transformation of information technology management concepts, China's construction industry is quietly entering the era of refined management. Accurate estimation and cost control have become among the key considerations of the construction industry. For the calculation of engineering quantity, there are already many software devices that can be used for the calculation of engineering structure quantity, which means that the incorrect operation of personnel has been reduced to some extent, improving the work efficiency and measurement accuracy. The purpose of this paper is to solve the problems of computational missing, computational errors, inefficiency, data loss, and repetitive system in traditional computing based on the advantages of BIM computing system, which provide a reliable basis for cost forecasting and control. At the same time, using BMI calculation system to solve the problem of steel reinforcement in construction engineering, as well as the use of personnel, the existing calculation software still needs a lot of time and energy. We proposed a comprehensive evaluation study of reinforcement calculation in domestic construction engineering BIM calculation system based on a fuzzy comprehensive evaluation. This paper first summarizes the BIM calculation system of construction engineering, uses fuzzy comprehensive evaluation system as an important evaluation index system in domestic construction engineering BIM calculation system, through the judgment of various factors affecting the actual effect of the calculation system, and uses the fuzzy evaluation system combined with a case to demonstrate the superiority of the proposed research. Therefore, through the above research and experiments, it is concluded that the research method of this paper solves many problems in the process of engineering structure reinforcement calculation and provides a good reference method for the establishment of comprehensive evaluation system of reinforcement calculation, as well as providing an effective validation for the widespread use of BIM technology in the construction industry. Finally, it is also beneficial for users to comprehensively evaluate the BIM calculation system of the construction industry and provide a basic reference condition for different industries to use and choose BIM calculation systems.
如今,随着计算机技术的飞跃发展和信息技术管理理念的转变,我国建筑业正在悄然迈入精细化管理时代。精确的估算和成本控制已成为建筑业的关键考虑因素之一。对于工程量的计算,已经有许多软件设备可以用于工程结构量的计算,这意味着在一定程度上减少了人员操作的失误,提高了工作效率和测量精度。本文旨在解决传统计算中存在的计算缺失、计算错误、效率低下、数据丢失和系统重复等问题,基于 BIM 计算系统的优势,为成本预测和控制提供可靠依据。同时,利用 BMI 计算系统解决施工工程中的钢筋问题,以及人员的使用问题,现有的计算软件仍然需要大量的时间和精力。我们提出了一种基于模糊综合评价的国内建筑工程 BIM 计算系统钢筋计算的综合评价研究。本文首先总结了建筑工程 BIM 计算系统,将模糊综合评价系统作为国内建筑工程 BIM 计算系统的重要评价指标体系,通过判断影响计算系统实际效果的各种因素,并利用模糊评价系统与案例相结合,论证了所提出研究的优越性。因此,通过以上研究和实验,得出本文的研究方法解决了工程结构钢筋计算过程中的诸多问题,为钢筋计算的综合评价体系的建立提供了良好的参考方法,为 BIM 技术在建筑业的广泛应用提供了有效的验证。最后,对于用户全面评估建筑行业 BIM 计算系统也具有重要意义,为不同行业使用和选择 BIM 计算系统提供了基本的参考条件。
