Forecasting Monthly Electric Energy Consumption Using Feature Extraction

Meng, Ming; Niu, Dongxiao; Sun, Wei

doi:10.3390/en4101495

Cited by 50 publications

(37 citation statements)

References 23 publications

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“…For neural network models, the error backpropagation artificial neural network and radial basis function artificial neural network (RBFANN) are the most representative neural network models. As the latter is usually better than the former in terms of learning efficiency and stability [22], RBFANN was selected to forecast India's electricity consumption from 2001 to 2010. As with the ONEM and GM(1, 1), electricity consumption data for 20 continuous years before the forecasting year were also selected to build the model.…”

Section: Forecasting Results and Error Analysismentioning

confidence: 99%

See 1 more Smart Citation

Yearly Electricity Consumption Forecasting using a Nonhomogeneous Exponential Model Optimized by PSO Algorithm

Xu¹,

Niu²,

Meng³

et al. 2014

Appl. Math. Inf. Sci.

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Abstract:Yearly electricity consumption trends of most developing countries usually exhibit approximately exponential growth curves. An optimized nonhomogeneous exponential model (ONEM) is proposed as a method of forecasting electricity consumption by using trend extrapolation. The parameters of the nonhomogeneous exponential equation are obtained by using the inverse accumulated generating operation, discretizing the differential equation, minimizing the residual sum of squares (RSS), and accumulating the homogeneous exponential equation. Furthermore, to improve forecasting precision, particle swarm optimization (PSO) algorithm is used to optimize the equation parameters. To evaluate the forecasting performance for comparison, the said model and two other traditional methods are used to forecast the yearly electricity consumption of India. Empirical results show that this model is much better than traditional methods for each error analysis indicator.

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Section: Forecasting Results and Error Analysismentioning

confidence: 99%

“…Neural networks and other artificial intelligent algorithms have been used for trend extrapolation of daily [19,20] and monthly [21,22] electricity consumption. Limited by the algorithms themselves, these models usually need large sample data with relative clear laws for parameter training.…”

Section: Introductionmentioning

confidence: 99%

Yearly Electricity Consumption Forecasting using a Nonhomogeneous Exponential Model Optimized by PSO Algorithm

Xu¹,

Niu²,

Meng³

et al. 2014

Appl. Math. Inf. Sci.

Self Cite

View full text Add to dashboard Cite

show abstract

“…Contrary to the ARIMA model, PLSR is a popular statistical tool that can deal with data, especially missing or highly correlated data [26]. However, PLSR was recently discussed in the field of energy demand estimation [26,27]. For instance, Zhang et al [26] employed the PLSR model to estimate the transportation energy demand in China on the basis of GDP, urbanization rate, passenger turnover, and freight turnover.…”

Section: Econometric Methodmentioning

confidence: 99%

Energy Demand Forecasting: Combining Cointegration Analysis and Artificial Intelligence Algorithm

Huang

Tang

Chen

2018

Mathematical Problems in Engineering

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Energy is vital for the sustainable development of China. Accurate forecasts of annual energy demand are essential to schedule energy supply and provide valuable suggestions for developing related industries. In the existing literature on energy use prediction, the artificial intelligence-based (AI-based) model has received considerable attention. However, few econometric and statistical evidences exist that can prove the reliability of the current AI-based model, an area that still needs to be addressed. In this study, a new energy demand forecasting framework is presented at first. On the basis of historical annual data of electricity usage over the period of 1985-2015, the coefficients of linear and quadratic forms of the AI-based model are optimized by combining an adaptive genetic algorithm and a cointegration analysis shown as an example. Prediction results of the proposed model indicate that the annual growth rate of electricity demand in China will slow down. However, China will continue to demand about 13 trillion kilowatt hours in 2030 because of population growth, economic growth, and urbanization. In addition, the model has greater accuracy and reliability compared with other single optimization methods.

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“…They are used as the daily feature vector. Then, the grey relational analysis method is used to calculate the meteorological similarity factors between the forecast day and the historical day [3] . As the power load is generally positively correlated with temperature and negatively correlated with humidity, a multivariate nonlinear regression model between the weather sensitive load and the real-time temperature and humidity can be established [4] .…”

Section: Selection Of Similar Daysmentioning

confidence: 99%

Short Term Load Forecasting of Power System

Fan¹

2017

Proceedings of the 2nd International Conference on Computer Engineering, Information Science &Amp; Application Technology (ICCI

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Abstract. In this paper, short-term load forecasting of power system considering meteorological factors is studied. The power system load is divided into three parts: basic component, weather sensitive component and random component. Then the correction strategy of similar days is introduced and the meteorological factors is considered to improve the original BP model. And the similar days are determined according to the periodic characteristic of the load value and the grey relational analysis. Finally, by comparing the predicted data with the actual data, it is proved that the prediction model agrees with the actual situation and has higher prediction accuracy.

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Forecasting Monthly Electric Energy Consumption Using Feature Extraction

Cited by 50 publications

References 23 publications

Yearly Electricity Consumption Forecasting using a Nonhomogeneous Exponential Model Optimized by PSO Algorithm

Yearly Electricity Consumption Forecasting using a Nonhomogeneous Exponential Model Optimized by PSO Algorithm

Energy Demand Forecasting: Combining Cointegration Analysis and Artificial Intelligence Algorithm

Short Term Load Forecasting of Power System

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