Tao Hong scite author profile

The widespread popularity of smart meters enables an immense amount of fine-grained electricity consumption data to be collected. Meanwhile, the deregulation of the power industry, particularly on the delivery side, has continuously been moving forward worldwide. How to employ massive smart meter data to promote and enhance the efficiency and sustainability of the power grid is a pressing issue. To date, substantial works have been conducted on smart meter data analytics. To provide a comprehensive overview of the current research and to identify challenges for future research, this paper conducts an application-oriented review of smart meter data analytics. Following the three stages of analytics, namely, descriptive, predictive and prescriptive analytics, we identify the key application areas as load analysis, load forecasting, and load management. We also review the techniques and methodologies adopted or developed to address each application. In addition, we also discuss some research trends, such as big data issues, novel machine learning technologies, new business models, the transition of energy systems, and data privacy and security.

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Global Energy Forecasting Competition 2012

Hong

Pinson

Fan

2014

International Journal of Forecasting

445

239

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Probabilistic Load Forecasting via Quantile Regression Averaging on Sister Forecasts

Liu

Nowotarski

Hong

et al. 2015

IEEE Trans. Smart Grid

192

138

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The majority of the load forecasting literature has been on point forecasting, which provides the expected value for each step throughout the forecast horizon. In the smart grid era, the electricity demand is more active and less predictable than ever before. As a result, probabilistic load forecasting, which provides additional information on the variability and uncertainty of future load values, is becoming of great importance to power systems planning and operations. This paper proposes a practical methodology to generate probabilistic load forecasts by performing quantile regression averaging on a set of sister point forecasts. There are two major benefits of the proposed approach. It can leverage the development in the point load forecasting literature over the past several decades and it does not rely so much on high-quality expert forecasts, which are rarely achievable in load forecasting practice. To demonstrate the effectiveness of the proposed approach and make the results reproducible to the load forecasting community, we construct a case study using the publicly available data from the Global Energy Forecasting Competition 2014. Compared with several benchmark methods, the proposed approach leads to dominantly better performance as measured by the pinball loss function and the Winkler score.Index Terms-Electric load forecasting, forecast combination, pinball loss function, prediction interval (PI), probabilistic forecasting, quantile regression, sister forecast, Winkler score.

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Tao Hong

Probabilistic electric load forecasting: A tutorial review

Probabilistic energy forecasting: Global Energy Forecasting Competition 2014 and beyond

Review of Smart Meter Data Analytics: Applications, Methodologies, and Challenges

Global Energy Forecasting Competition 2012

Probabilistic Load Forecasting via Quantile Regression Averaging on Sister Forecasts

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