利用深度卷积神经网络进行准确的负荷预测,提高智能家居能源效率

Suaad M. Saber, Geehan Sabah Hassan, Mohanad Sameer Jabbar, Jamal Fadhil Tawfeq, Ahmed Dheyaa Radhi, Poh Soon JosephNg
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引用次数: 0

摘要

使用深度学习技术预测家庭电力负荷的方法被称为基于深度卷积神经网络的智能家庭负荷预测。这种方法使用卷积神经网络分析来自各种来源的数据,如天气、一天中的时间和其他因素,以准确预测家庭的电力负荷。这种方法的目的是帮助优化能源使用并降低能源成本。本文提出了一种基于深度学习的非永久性住宅电能负荷预测方法,该方法使用时间卷积网络(TCN)对具有时间序列特征的历史负荷收集进行建模,并显著研究电能消耗属性参数之间的动态变化模式。该方法考虑了信息的时间序列归属,并以惊人的操作效率提供了大规模事实处理的并行化,同时考虑了信息在时间序列方面的问题以及变量之间存在的固有相关性。使用UCI公共数据集进行了测试,实验结果验证了该方法的有效性,这对建立智能强度网格调度具有明确、合理的意义。
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Enhancing smart home energy efficiency through accurate load prediction using deep convolutional neural networks
The method of predicting the electricity load of a home using deep learning techniques is called intelligent home load prediction based on deep convolutional neural networks. This method uses convolutional neural networks to analyze data from various sources such as weather, time of day, and other factors to accurately predict the electricity load of a home. The purpose of this method is to help optimize energy usage and reduce energy costs. The article proposes a deep learning-based approach for nonpermanent residential electrical energy load forecasting that employs temporal convolutional networks (TCN) to model historic load collection with timeseries traits and to study notably dynamic patterns of variants amongst attribute parameters of electrical energy consumption. The method considers the timeseries homes of the information and offers parallelization of large-scale facts processing with magnificent operational efficiency, considering the timeseries aspects of the information and the problematic inherent correlations between variables. The exams have been done using the UCI public dataset, and the experimental findings validate the method's efficacy, which has clear, sensible implications for setting up intelligent strength grid dispatching.
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来源期刊
CiteScore
1.90
自引率
0.00%
发文量
140
审稿时长
7 weeks
期刊介绍: *Industrial Engineering: 1 . Ergonomics 2 . Manufacturing 3 . TQM/quality engineering, reliability/maintenance engineering 4 . Production Planning 5 . Facility location, layout, design, materials handling 6 . Education, case studies 7 . Inventory, logistics, transportation, supply chain management 8 . Management 9 . Project/operations management, scheduling 10 . Information systems for production and management 11 . Innovation, knowledge management, organizational learning *Mechanical Engineering: 1 . Energy 2 . Machine Design 3 . Engineering Materials 4 . Manufacturing 5 . Mechatronics & Robotics 6 . Transportation 7 . Fluid Mechanics 8 . Optical Engineering 9 . Nanotechnology 10 . Maintenance & Safety *Computer Science: 1 . Computational Intelligence 2 . Computer Graphics 3 . Data Mining 4 . Human-Centered Computing 5 . Internet and Web Computing 6 . Mobile and Cloud computing 7 . Software Engineering 8 . Online Social Networks *Electrical and electronics engineering 1 . Sensor, automation and instrumentation technology 2 . Telecommunications 3 . Power systems 4 . Electronics 5 . Nanotechnology *Architecture: 1 . Advanced digital applications in architecture practice and computation within Generative processes of design 2 . Computer science, biology and ecology connected with structural engineering 3 . Technology and sustainability in architecture *Bioengineering: 1 . Medical Sciences 2 . Biological and Biomedical Sciences 3 . Agriculture and Life Sciences 4 . Biology and neuroscience 5 . Biological Sciences (Botany, Forestry, Cell Biology, Marine Biology, Zoology) [...]
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