Adjusted Feature-Aware k-Nearest Neighbors: Utilizing Local Permutation-Based Error for Short-Term Residential Building Load Forecasting

Abstract

Household load profiles are more fluctuating than higher aggregated load profiles and relative forecast errors are comparatively high. To handle this, adjusted error metric and average concepts have been proposed to be used to obtain more suitable forecasting algorithms. These algorithms have so far only been compared for day-ahead forecasts. They are further not considering external features such as numerical weather data or calendar-based information. We present an extension of an algorithm based on k-nearest neighbors that is capable of incorporating such external features, the Adjusted Feature-Aware k-Nearest Neighbors (AFKNN). We show on 220 households of the Pecan Street dataset that forecast accuracy can be improved for buildings with electrical heating and cooling as well as for intra-day forecasting, at the cost of higher modeling complexity.

@INPROCEEDINGS{8587534, 
author={M. Vo{ss} and A. Haja and S. Albayrak}, 
booktitle={2018 IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm)}, 
title={Adjusted Feature-Aware k-Nearest Neighbors: Utilizing Local Permutation-Based Error for Short-Term Residential Building Load Forecasting}, 
year={2018}, 
volume={}, 
number={}, 
pages={1-6}, 
abstract={Household load profiles are more fluctuating than higher aggregated load profiles and relative forecast errors are comparatively high. To handle this, adjusted error metric and average concepts have been proposed to be used to obtain more suitable forecasting algorithms. These algorithms have so far only been compared for day-ahead forecasts. They are further not considering external features such as numerical weather data or calendar-based information. We present an extension of an algorithm based on k-nearest neighbors that is capable of incorporating such external features, the Adjusted Feature-Aware k-Nearest Neighbors (AFKNN). We show on 220 households of the Pecan Street dataset that forecast accuracy can be improved for buildings with electrical heating and cooling as well as for intra-day forecasting, at the cost of higher modeling complexity.}, 
keywords={Measurement;Load modeling;Predictive models;Buildings;Forecasting;Load forecasting;Weather forecasting}, 
doi={10.1109/SmartGridComm.2018.8587534}, 
ISSN={}, 
month={Oct},}
Authors:
Category:
Conference Paper
Year:
2018
Location:
IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm)