Title :
A Versatile Clustering Method for Electricity Consumption Pattern Analysis in Households
Author :
Hino, Hideitsu ; Haoyang Shen ; Murata, Norio ; Wakao, Shinji ; Hayashi, Yasuhiro
Author_Institution :
Sch. of Sci. & Eng., Waseda Univ., Tokyo, Japan
Abstract :
Analysis and modeling of electric energy demand is indispensable for power planning, operation, facility investment, and urban planning. Because of recent development of renewable energy generation systems oriented for households, there is also a great demand for analysing the electricity usage and optimizing the way to install electricity generation systems for each household. In this study, employing statistical techniques, a method to model daily consumption patterns in households and a method to extract a small number of their typical patterns are presented. The electricity consumption patterns in a household is modeled by a mixture of Gaussian distributions. Then, using the symmetrized generalized Kullback-Leibler divergence as a distance measure of the distributions, typical patterns of the consumption are extracted by means of hierarchical clustering. The statistical modeling of daily consumption patterns allows us to capture essential similarities of the patterns. By experiments using a large-scale dataset including about 500 houses´ consumption records in a suburban area in Japan, it is shown that the proposed method is able to extract typical consumption patterns.
Keywords :
Gaussian distribution; domestic appliances; pattern clustering; power consumption; Gaussian distribution mixture; Japan; consumption patterns; daily consumption patterns; distance measurement; electric energy demand; electricity consumption pattern analysis; electricity consumption patterns; electricity generation system; electricity usage; hierarchical clustering; households; large-scale dataset; model daily consumption patterns; power facility investment; power operation; power planning; renewable energy generation systems; statistical modeling; statistical techniques; suburban area; symmetrized generalized Kullback-Leibler divergence; urban planning; versatile clustering method; Clustering methods; Electricity; Euclidean distance; Gaussian distribution; Gaussian mixture model; Wind power generation; Electricity consumption pattern; Gaussian mixture model; KL-divergence; gap statistics; hierarchical clustering;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2013.2240319
