Reduce the Number of Sensors: Sensing Acoustic Emissions to Estimate Appliance Energy Usage
Key: EDR+13-1
Author: Frank Englert, Irina Diaconita, Andreas Reinhardt, Alaa Alhamoud, Ralf Steinmetz
Date: November 2013
Kind: In proceedings
Publisher: ACM
Book title: 5th ACM Workshop On Embedded Systems For Energy-Efficient Buildings
Abstract: As a consequence of rising energy prices, manifold solutions to create user awareness for the unnecessary operation of electric appliances have emerged, e.g., real-time consumption displays or timer-based switchable wall outlets. A common attribute of these solutions is the need to buy and install additional hardware, although their acquisition and operation costs often diminish the attainable savings. Furthermore these solutions only permit to retrieve accumulated figures of the energy consumption. Especially in households or office spaces with multiple persons, however, attributing electricity consumption to individuals provides enormous potential to determine possible savings. We therefore propose a system that allows to identify the energy demand incurred by a user's action based on audio recordings using smartphones. More precisely, we capture the user's ambient sounds and applying suitable filtering steps in order to determine the user's current activity with the help of a machine learning component. Our results indicate that our system is capable of detecting 16 typical household activities at an accuracy of 92%. By annotating the detectable household activities with information about typical energy consumptions, extracted from 950 real-world power consumption traces, a good estimate of the energy intensity of the users' lifestyles can be made. Our novel personalized energy monitoring system shows people their personal energy consumption, while maintaining their user comfort and relinquishing the need for additional hardware.
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