A Study on Several Machine Learning Methods for Estimating Cabin Occupant Equivalent Temperature

Diana Hintea; James Brusey; Elena Gaura

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Paper

A Study on Several Machine Learning Methods for Estimating Cabin Occupant Equivalent Temperature

Topics: Engineering Applications; Environmental Monitoring and Control; Machine Learning in Control Applications; Sensors Fusion

In Proceedings of the 12th International Conference on Informatics in Control, Automation and Robotics - Volume 1: ICINCO, 629-634, 2015 , Colmar, Alsace, France

Authors: Diana Hintea ; James Brusey and Elena Gaura

Affiliation: Coventry University, United Kingdom

Keyword(s): Equivalent Temperature, HVAC Control, Machine Learning, Parameter Estimation.

Related Ontology Subjects/Areas/Topics: Engineering Applications ; Environmental Monitoring and Control ; Informatics in Control, Automation and Robotics ; Intelligent Control Systems and Optimization ; Machine Learning in Control Applications ; Robotics and Automation ; Sensors Fusion ; Signal Processing, Sensors, Systems Modeling and Control

Abstract: Occupant comfort oriented Heating, Ventilation and Air Conditioning (HVAC) control rises to the challenge of delivering comfort and reducing the energy budget. Equivalent temperature represents a more accurate predictor for thermal comfort than air temperature in the car cabin environment, as it integrates radiant heat and airflow. Several machine learning methods were investigated with the purpose of creating an estimator of cabin occupant equivalent temperature from sensors throughout the cabin, namely Multiple Linear Regression, MultiLayer Perceptron, Multivariate Adaptive Regression Splines, Radial Basis Function Network, REPTree, K-Nearest Neighbour and Random Forest. Experimental equivalent temperature and cabin data at 25 points was gathered in a variety of environmental conditions. A total of 30 experimental hours were used for training and evaluation of the estimator's performance. Most machine learning tehniques provided a Root Mean Square Error (RMSE) between 1.51 °C and 1.85 °C , while the Radial Basis Function Network performed the worst, with an average RMSE of 3.37 °C . The Multiple Linear Regression had an average RMSE of 1.60 °C over the eight body part equivalent temperatures and also had the fastest processing time, enabling a straightforward real-time implementation in a car's engine control unit. (More)

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Paper citation in several formats:

Hintea, D.; Brusey, J. and Gaura, E. (2015). A Study on Several Machine Learning Methods for Estimating Cabin Occupant Equivalent Temperature. In Proceedings of the 12th International Conference on Informatics in Control, Automation and Robotics - Volume 1: ICINCO; ISBN 978-989-758-122-9; ISSN 2184-2809, SciTePress, pages 629-634. DOI: 10.5220/0005573606290634

@conference{icinco15,
author={Diana Hintea. and James Brusey. and Elena Gaura.},
title={A Study on Several Machine Learning Methods for Estimating Cabin Occupant Equivalent Temperature},
booktitle={Proceedings of the 12th International Conference on Informatics in Control, Automation and Robotics - Volume 1: ICINCO},
year={2015},
pages={629-634},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005573606290634},
isbn={978-989-758-122-9},
issn={2184-2809},
}

TY - CONF

JO - Proceedings of the 12th International Conference on Informatics in Control, Automation and Robotics - Volume 1: ICINCO
TI - A Study on Several Machine Learning Methods for Estimating Cabin Occupant Equivalent Temperature
SN - 978-989-758-122-9
IS - 2184-2809
AU - Hintea, D.
AU - Brusey, J.
AU - Gaura, E.
PY - 2015
SP - 629
EP - 634
DO - 10.5220/0005573606290634
PB - SciTePress