We propose a framework for energy-based human activity recognition in a household environment. We apply machine learning techniques to infer the state of household appliances from their energy consumption data and use rulebased scenarios that exploit these states to detect human activity. Our decision engine achieved a 99.1% accuracy for real-world data collected in the kitchens of two smart homes
Smart homes for the aging population have recently started attracting the attention of the research ...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...
Human activity recognition is challenging without compromising users’ privacy and burdening them wit...
Thanks to the recent development of cheap and unobtrusive smart-home sensors, ambient assisted livin...
Since the power consumption of different electrical appliances in a household can be recorded by ind...
In recent years, the consumption of electricity has increased considerably in the industrial, commer...
International audienceThe recognition of human daily living activities within a house represents an ...
Current energy demand for appliances in smart homes is nowadays becoming a severe challenge, due to ...
Abstract Energy demand in typical home environments accounts for a significant fraction of the overa...
The challenge of Smart Building Energy and Comfort Management (BECM) systems is to schedule home app...
Thesis (Ph.D.), Department of Electrical Engineering and Computer Science, Washington State Universi...
International audienceBuilding Energy Management (BEM) and monitoring systems should not only consid...
Recognizing human activities in domestic environments from audio and active power consumption sensor...
Human activity recognition in smart house environments is the task of automatic recognition of physi...
Smart homes for the aging population have recently started attracting the attention of the research ...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...
Human activity recognition is challenging without compromising users’ privacy and burdening them wit...
Thanks to the recent development of cheap and unobtrusive smart-home sensors, ambient assisted livin...
Since the power consumption of different electrical appliances in a household can be recorded by ind...
In recent years, the consumption of electricity has increased considerably in the industrial, commer...
International audienceThe recognition of human daily living activities within a house represents an ...
Current energy demand for appliances in smart homes is nowadays becoming a severe challenge, due to ...
Abstract Energy demand in typical home environments accounts for a significant fraction of the overa...
The challenge of Smart Building Energy and Comfort Management (BECM) systems is to schedule home app...
Thesis (Ph.D.), Department of Electrical Engineering and Computer Science, Washington State Universi...
International audienceBuilding Energy Management (BEM) and monitoring systems should not only consid...
Recognizing human activities in domestic environments from audio and active power consumption sensor...
Human activity recognition in smart house environments is the task of automatic recognition of physi...
Smart homes for the aging population have recently started attracting the attention of the research ...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...
A smart plug can transform the typical electrical appliance into a smart multi-functional device, wh...