Abstract
By using smart meters, more data about how businesses use energy is becoming available to energy retailers (providers). This is enabling innovation in the structure and type of tariffs on offer in the energy market. We have applied Artificial Neural Networks, Support Vector Machines, and Naive Bayesian Classifiers to a data set of the electrical power use by 12,000 businesses (in 44 sectors) to investigate predicting which businesses will gain or lose by switching between tariffs (a two-classes problem). We have used only three features of each company: their business sector, load profile category, and mean power use. We are particularly interested in the switch between a static tariff (fixed price or time-of-use) and a dynamic tariff (half-hourly pricing). We have extended the two-classes problem to include a price elasticity factor (a three-classes problem). We show how the classification error for the two- and three-classes problems varies with the amount of available data. Furthermore, we used Ordinary Least Squares and Support Vector Regression models to compute the exact values of the amount gained or lost by a business if it switched tariff types. Our analysis suggests that the machine learning classifiers required less data to reach useful performance levels than the regression models.
Highlights
Uncertainty in global energy markets is leading to volatility of the prices that consumers pay for gas and electricity
We have investigated how to predict which customers will win or lose when they change from a fixed price tariff (FPT) or time-of-use tariff (TOUT) to a real-time tariff (RTT) based on their real behaviour
We have studied how to predict which businesses win or lose money when they change from a static price electricity tariff to a dynamic one
Summary
Uncertainty in global energy markets is leading to volatility of the prices that consumers pay for gas and electricity. Wholesale and retail energy prices have dropped recently in the USA, but are rising in many other nations [1]. For small and medium-sized businesses energy may form a significant cost, in a recession. From the perspective of both individual businesses and energy providers (retailers), the ability to analyse energy use patterns (demand profiles) is important for economic and energy efficiency.
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