Title of article
Home monitoring using wearable radio frequency transmitters
Author/Authors
Almudevar، نويسنده , , Anthony and Leibovici، نويسنده , , Adrian and Tentler، نويسنده , , Aleksey، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
12
From page
109
To page
120
Abstract
SummaryBackground
on tracking of a wearable radio frequency (RF) transmitter in a wireless network is a potentially useful tool for the home monitoring of patients in clinical applications. However, the problem of converting RF signals into accurate estimates of transmitter location remains a significant challenge.
ives
h to demonstrate that long-term home monitoring using RF transmitters is feasible. Additionally, we conjecture that human motion within familiar environments is confined to relatively small regions of high occupancy. Hence, human motion can be modelled as movement along a network of such high occupancy regions.
s and materials
thodology uses a signal processing technique developed by one of the authors (Almudevar). The technique converts longitudinal RF data into an estimated trajectory which does not depend on explicit location estimates. This approach eliminates the need for a location-signal calibration procedure. Given a long-term trajectory, Gaussian mixture models are used to identify high occupancy regions. The methodology was evaluated using data collected under a study funded by an Everyday Technologies for Alzheimer Care (ETAC) research grant from the Alzheimer’s Association. A home monitoring system provided by Home Free Systems was used.
s
oposed methodology was able to reliably reconstruct trajectories using study data. Regions of high occupancy were identified, and the observed transitions between these regions were found to be spatially and serially coherent. In addition, the trajectory was compared to output from a parallel home sensor network, and a high degree a conformity was evident.
sion
erm home monitoring of human motion is feasible using readily available and easily installable technology. Furthermore, by using suitable signal processing algorithms, the often difficult location-signal calibration process can be bypassed.
Keywords
wireless network , Gaussian mixture models , Home monitoring , Motion tracking
Journal title
Artificial Intelligence In Medicine
Serial Year
2008
Journal title
Artificial Intelligence In Medicine
Record number
1836656
Link To Document