Abstract
Healthcare buildings exhibit a different electrical load predictability depending on their size and nature. Large hospitals behave similarly to small cities, whereas primary care centers are expected to have different consumption dynamics. In this work, we jointly analyze the electrical load predictability of a large hospital and that of its associated primary care center. An unsupervised load forecasting scheme using combined classic methods of principal component analysis (PCA) and autoregressive (AR) modeling, as well as a supervised scheme using orthonormal partial least squares (OPLS), are proposed. Both methods reduce the dimensionality of the data to create an efficient and low-complexity data representation and eliminate noise subspaces. Because the former method tended to underestimate the load and the latter tended to overestimate it in the large hospital, we also propose a convex combination of both to further reduce the forecasting error. The analysis of data from 7 years in the hospital and 3 years in the primary care center shows that the proposed low-complexity dynamic models are flexible enough to predict both types of consumption at practical accuracy levels.
Highlights
Electricity load forecasting is an active research topic with significant practical implications for almost any industry or organization
This paper has investigated the prediction of the energy consumption of healthcare customers using simple multivariate analysis (MVA) methods
In order to meet the above requirements, our research led us to handle a large amount of data, which is the reason we explored the use of MVA methods for analysis and load forecasting
Summary
Electricity load forecasting is an active research topic with significant practical implications for almost any industry or organization. This is not surprising, as the accurate prediction of energy consumption and requirements has a positive impact on operational budgets [1]. Depending on the prediction horizon (i.e., the lead time), forecasting problems are classified into three groups: short-term load forecasts (STLFs), which usually aim to predict the load consumption up to 1 week ahead; medium-term load forecasts (MTLFs), which cover from 1 week to 1 year; and long-term load forecasts (LTLFs), which aim at load prediction for over a year ahead.
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