Long-term, low duty cycle monitoring of patients with a variety of disabilities or health concerns is often required. In this paper, we discuss the design considerations and implementation of an ultra-low power wireless medical sensor platform, suitable for a wide range of medical and sports applications. A hardware demonstration prototype based on readily available components is presented with sensors for 3-axis acceleration, temperature and galvanic skin response. Detailed power measurements and operation results are shown, demonstrating a sensor life span of more than 10 years on a single 200 mAh lithium watch battery using low current standby techniques with an average power of less than 5 muW and a 10 second sample interval
[1]
Gu-Yeon Wei,et al.
A portable, low-power, wireless two-lead EKG system
,
2004,
The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.
[2]
Matt Welsh,et al.
Sensor networks for medical care
,
2005,
SenSys '05.
[3]
Roy Rada,et al.
Interacting WITH Computers
,
1989,
Interact. Comput..
[4]
Rosalind W. Picard.
The Galvactivator: A glove that senses and communicates skin conductivity
,
2001
.
[5]
R. Zane,et al.
Resistor Emulation Approach to Low-Power RF Energy Harvesting
,
2008,
IEEE Transactions on Power Electronics.