Paper Info
Title
DOSE: Detecting user-driven operating states of electronic devices from a single sensing point
Abstract
Electricity and appliance usage information can often reveal the nature of human activities in a home. For instance, sensing the use of vacuum cleaner, a microwave oven, and kitchen appliances can give insights into a person's current activities. Instead of putting a sensor on each appliance, our technique is based on the idea that appliance usage can be sensed by their manifestations in an environment's existing electrical infrastructure. Prior approaches using this technique could only detect an appliance's on-off states; that is, they only sense “what” is being used, but not “how” it is used. In this paper, we introduce DOSE, a significant advancement for inferring operating states of electronic devices from a single sensing point in a home. When an electronic device is in operation, it generates time-varying Electromagnetic Interference (EMI) based upon its operating states (e.g., vacuuming on a rug vs. hardwood floor). This EMI noise is coupled to the power line and can be picked up from a single sensing hardware attached to the wall outlet in a house. Unlike prior data-driven approaches, we employ domain knowledge of the device's circuitry for semi-supervised model training to avoid tedious labeling process. We evaluated DOSE in a residential house for 2 months and found that operating states for 16 appliances could be estimated with an average accuracy of 93.8%. These fine-grained electrical characteristics affords rich feature sets of electrical events and have the potential to support various applications such as in-home activity inference, energy disaggregation and device failure detection.
Year
DOI
Venue
2015
10.1109/PERCOM.2015.7146508
PerCom
Field
DocType
ISSN
Vacuum cleaner,Domain knowledge,Electricity,Computer science,Electromagnetic interference,Electronics,Electrical engineering,EMI,Distributed computing,Embedded system
Conference
2474-2503
Citations 
PageRank 
References 
7
0.49
17
Authors
4
Name
Order
Citations
PageRank
Keyu Chen124214.60
Sidhant Gupta297252.23
Eric C. Larson358330.46
Shwetak N. Patel42967211.74