Fault detection research on novel transfer learning-based method for cross-condition, cross-system and cross-operation in public building HVAC sensors

IF 9 1区 工程技术 Q1 ENERGY & FUELS Energy Pub Date : 2024-11-05 DOI:10.1016/j.energy.2024.133704
Boyan Zhang , Yacine Rezgui , Zhiwen Luo , Tianyi Zhao
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引用次数: 0

Abstract

Transfer learning (TL) has the inspiring potential for artificial intelligence in heating, ventilation and air conditioning (HVAC) system with insufficient data labels. However, traditional TL-based methods are limited when applied across different conditions, systems, and operations.Unfortunately, public building HVAC systems encounter challenges related to data acquisition and richness, making it difficult to obtain data from similar HVAC systems conditions, scenarios and operations. It proposes a novel TL-based method that combines energy and mass balance constraint equation (EBCe) to diagnose the sensor faults in HVAC systems across different systems, conditions and operations.Firstly, it utilizes laboratory data as the source domain data and constructes EBCe based on the common physical laws of HVAC system to reduce the data differences between laboratory and public buildings. Then, an laplacian kernel domain-adaptive neural network (LkDaNN) is proposed to generalize more efficiently feature differences between the source domain data and target domain data. Finally, experiment analyzes the non-fault and four control-sensors fault under both cross-operation and non-cross operation conditions. The experimental results demonstrate that the EBCe-LkDaNN method achieves satisfactory fault detection and diagnosis (FDD) performance.The overall FDD accuracy of porposed method can reach 90.72 % and 88.64 % under different cross-operation, respectively. Practical application of the EBCe-LkDaNN strategy for HVAC sensor FDD are discussed at last.
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基于新型迁移学习方法的公共建筑暖通空调传感器跨工况、跨系统和跨运行故障检测研究
迁移学习(TL)在数据标签不足的供热通风与空调(HVAC)系统中具有令人鼓舞的人工智能潜力。然而,传统的基于 TL 的方法在应用于不同条件、系统和操作时受到限制。不幸的是,公共建筑暖通空调系统在数据获取和丰富性方面遇到了挑战,很难从类似的暖通空调系统条件、场景和操作中获取数据。首先,它利用实验室数据作为源域数据,并根据暖通空调系统的共同物理定律构建 EBCe,以减少实验室和公共建筑之间的数据差异。然后,提出了一种拉普拉斯核域自适应神经网络(LkDaNN),以更有效地概括源域数据和目标域数据之间的特征差异。最后,实验分析了交叉运行和非交叉运行条件下的非故障和四个控制传感器故障。实验结果表明,EBCe-LkDaNN 方法取得了令人满意的故障检测与诊断(FDD)性能。最后讨论了 EBCe-LkDaNN 策略在暖通空调传感器故障检测与诊断中的实际应用。
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来源期刊
Energy
Energy 工程技术-能源与燃料
CiteScore
15.30
自引率
14.40%
发文量
0
审稿时长
14.2 weeks
期刊介绍: Energy is a multidisciplinary, international journal that publishes research and analysis in the field of energy engineering. Our aim is to become a leading peer-reviewed platform and a trusted source of information for energy-related topics. The journal covers a range of areas including mechanical engineering, thermal sciences, and energy analysis. We are particularly interested in research on energy modelling, prediction, integrated energy systems, planning, and management. Additionally, we welcome papers on energy conservation, efficiency, biomass and bioenergy, renewable energy, electricity supply and demand, energy storage, buildings, and economic and policy issues. These topics should align with our broader multidisciplinary focus.
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