DocumentCode
591854
Title
Follow @grandma: Long-term device-free localization for residential monitoring
Author
Kaltiokallio, Ossi ; Bocca, Maurizio ; Patwari, Neal
Author_Institution
Sch. of Electr. Eng., Dept. of Autom. & Syst. Technol., Aalto Univ., Helsinki, Finland
fYear
2012
fDate
22-25 Oct. 2012
Firstpage
991
Lastpage
998
Abstract
Device-free localization (DFL) enables localizing people by monitoring the changes in the radio frequency (RF) attenuation field of an area where a wireless network is deployed. Notably, this technology does not require people to participate in the localization effort by carrying any electronic device. This paper presents a DFL system for long-term residential monitoring. Due to the daily activities carried out by the people being monitored, the radio signals´ propagation patterns change continuously. This would make a system relying only on an initial calibration of the radio environment highly inaccurate in the long run. In this paper, we use an on-line recalibration method that allows the system to adapt to the changes in the radio environment, and then provide accurate position estimates in the long run. A finite-state machine (FSM) defines when the person is located at specific areas-of-interest (AoI) inside the house (e.g. kitchen, bathroom, bed, etc.). Moreover, each time a state transition is triggered, the system tweets the new AoI in a Twitter account. The FSM allows extracting higher level information about the daily routine of the person being monitored, enabling interested parties (e.g. caretakers, relatives) to check that everything is proceeding normally in his life. In the long-term experiment carried out in a real domestic environment, the system was able to accurately and reliably localize the person during his daily activities.
Keywords
calibration; computerised monitoring; finite state machines; home computing; object detection; radiofrequency identification; wireless sensor networks; AoI; DFL system; FSM; Follow @grandma; Twitter account; areas-of-interest; electronic device; finite state machine; long-term device-free localization; long-term residential monitoring; online recalibration method; position estimation; radio environment; radio frequency attenuation field; radio signal propagation pattern; real domestic environment; wireless network; Atmospheric measurements; Attenuation measurement; Biomedical monitoring; Computer architecture; Monitoring; Particle measurements; device-free localization; finite-state machine; residential monitoring; wireless sensor networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Local Computer Networks Workshops (LCN Workshops), 2012 IEEE 37th Conference on
Conference_Location
Clearwater, FL
Print_ISBN
978-1-4673-2130-3
Type
conf
DOI
10.1109/LCNW.2012.6424092
Filename
6424092
Link To Document