Related papers: Deep Learning for Intelligent Demand Response and Smart Grids: A Comprehensive Survey

Deep Learning for Intelligent Demand Response and Smart Grids: A Comprehensive Survey

URL: http://arxiv.org/abs/2101.08013v1
Date: Wed, 20 Jan 2021 08:07:41 GMT
Title: Deep Learning for Intelligent Demand Response and Smart Grids: A Comprehensive Survey
Authors: Prabadevi B, Quoc-Viet Pham, Madhusanka Liyanage, N Deepa, Mounik VVSS, Shivani Reddy, Praveen Kumar Reddy Maddikunta, Neelu Khare, Thippa Reddy Gadekallu, Won-Joo Hwang
Abstract summary: Deep Learning can be leveraged to learn the patterns from the generated data and predict the demand for electricity and peak hours. We present the fundamental of DL, smart grids, demand response, and the motivation behind the use of DL. We review the state-of-the-art applications of DL in smart grids and demand response, including electric load forecasting, state estimation, energy theft detection, energy sharing and trading.
Score: 3.0746367873237
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Electricity is one of the mandatory commodities for mankind today. To address challenges and issues in the transmission of electricity through the traditional grid, the concepts of smart grids and demand response have been developed. In such systems, a large amount of data is generated daily from various sources such as power generation (e.g., wind turbines), transmission and distribution (microgrids and fault detectors), load management (smart meters and smart electric appliances). Thanks to recent advancements in big data and computing technologies, Deep Learning (DL) can be leveraged to learn the patterns from the generated data and predict the demand for electricity and peak hours. Motivated by the advantages of deep learning in smart grids, this paper sets to provide a comprehensive survey on the application of DL for intelligent smart grids and demand response. Firstly, we present the fundamental of DL, smart grids, demand response, and the motivation behind the use of DL. Secondly, we review the state-of-the-art applications of DL in smart grids and demand response, including electric load forecasting, state estimation, energy theft detection, energy sharing and trading. Furthermore, we illustrate the practicality of DL via various use cases and projects. Finally, we highlight the challenges presented in existing research works and highlight important issues and potential directions in the use of DL for smart grids and demand response.

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