基于建筑信息模型的智慧城市节能建筑管理优化数学模型

Jing Wang
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引用次数: 2

摘要

如今,智慧城市设计带来了使用BIM的智能建筑和结构以及环境。该模型的性能和评估是实验可持续性的。建筑信息建模(BIM)性能描述了如何衡量建筑项目或实体在开发、利用和评估方面的能力和成熟度。能源波动仍然是这种开发和利用的障碍。本文提出了一个能源管理优化数学模型(OMEM),用于评估智能城市建设管理中的能源利用情况,通过确定OMEM性能分析模型中的建筑信息和配电系统进行分析。获取一组对建筑能源管理的规划和预测很重要的参数和变量,以对智能城市中的智能基础设施进行建模。研究结果表明,该数学模型为评估BIM在智能城市智能建筑建设中的能源管理应用潜力提供了一种新的方法,具有高精度、低延迟和低错误率的性能。
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Optimized Mathematical Model for Energy Efficient Construction Management in Smart Cities Using Building Information Modeling
Nowadays, a Smart city design brings smart buildings and structures and environmental using BIM. The performance and evaluation of the model are experimentally sustainability. Building Information Modeling (BIM) performance describes how to measure a construction project or entity’s capability and maturity in terms of development, utilization, and assessment. Energy fluctuation remains a barrier in such development and utilization. In this paper, an Optimized Mathematical Model for Energy Management (OMMEM) has been proposed to assess energy utilization in the construction management of smart cities analyzed by determining building information and distribution systems to the OMMEM performance analysis model. A collection of parameters and variables important for planning and prediction concerning the energy management of construction is acquired to model a smart infrastructure in a smart city. The findings revealed that the mathematical model provides a new method of evaluating the potential of the BIM application towards energy management in smart building construction of smart cities with high accuracy, performance with low delay and error rate.
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来源期刊
Strategic Planning for Energy and the Environment
Strategic Planning for Energy and the Environment Environmental Science-Environmental Science (all)
CiteScore
1.50
自引率
0.00%
发文量
25
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