Muhammad Waseem Ahmad scite author profile

Highlights Developed machine learning models for HVAC electricity consumption prediction.  Compared the performance of feed-forward back-propagation artificial neural network (ANN) with random forest (RF).  The ANN model performed marginally better than the RF model.  RF model can be used as a variable selection tool. AbstractEnergy prediction models are used in buildings as a performance evaluation engine in advanced control and optimisation, and in making informed decisions by facility managers and utilities for enhanced energy efficiency. Simplified and data-driven models are often the preferred option where pertinent information for detailed simulation are not available and where fast responses are required. We compared the performance of the widely-used feed-forward back-propagation artificial neural network (ANN) with random forest (RF), an ensemble-based method gaining popularity in prediction-for predicting the hourly HVAC energy consumption of a hotel in Madrid, Spain. Incorporating social parameters such as the numbers of guests marginally increased prediction accuracy in both cases. Overall, ANN performed marginally better than RF with root-mean-square error (RMSE) of 4.97 and 6.10 respectively. However, the ease of tuning and modelling with categorical variables offers ensemble-based algorithms an advantage for dealing with multi-dimensional complex data, typical in buildings. RF performs internal cross-validation (i.e. using outof-bag samples) and only has a few tuning parameters. Both models have comparable predictive power and nearly equally applicable in building energy applications.

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Building energy metering and environmental monitoring – A state-of-the-art review and directions for future research

Ahmad

Mourshed

Mundow³

et al. 2016

Energy and Buildings

285

111

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Predictive modelling for solar thermal energy systems: A comparison of support vector regression, random forest, extra trees and regression trees

Ahmad

Reynolds

Rezgui

2018

Journal of Cleaner Production

372

107

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