Abstract
In modern smarthomes, temperature regulation is achieved through a mix of traditional and emergent technologies including air conditioning, heating, intelligent utilization of the effects of sun, wind, and shade as well as using stored heat and cold. To achieve the desired comfort for the inhabitants while minimizing environmental impact and cost, the home controller must predict how its actions will impact the temperature and other environmental factors in various parts of the home. The question we are investigating in this paper is whether the temperature values in different rooms in a home are predictable based on readings from sensors in the home. We are also interested in whether increased accuracy can be achieved by adding sensors to capture the state of doors and windows of the given room and/or the whole home, and what type of machine learning algorithms can take advantage of the additional information. As experimentation on real-world homes is highly expensive, we use ScaledHome, a 1:12 scale, IoT-enabled model of a smart home for data acquisition. Our experiments show that while additional data can improve the accuracy of the prediction, the type of machine learning models needs to be carefully adapted to the number of data features available.
Highlights
In modern smarthomes, temperature regulation is achieved through a mix of traditional and emergent technologies including air conditioning, heating, intelligent utilization of the effects of sun, wind, and shade as well as using stored heat and cold
We described a series of experiments performed on a scaled model of a real-world home
We used the collected data to build inputs to machine learning models that learn to predict the temperatures of individual rooms
Summary
Temperature regulation is achieved through a mix of traditional and emergent technologies including air conditioning, heating, intelligent utilization of the effects of sun, wind, and shade as well as using stored heat and cold. Modern internet of things (IoT) technology allows many of the actuators affecting the state of the home to be controllable at a distance—these include air conditioning and heating units, remotecontrolled variable vents and automatically actuated indoor and outdoor shades. We assume that all the actuators affecting the thermal comfort of the home are IoT controlled. The objective of the home controller is to strike an optimal balance between the comfort of the inhabitants and the minimization of the environmental impact and cost
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