Medical WSNs
From Cyber-Physical Systems Laboratory
Contents
Challenges
- reliability
- privacy and security
- power management - not all devices are battery powered
- diversity - both a challenge and an opportunity
- fast deployment - disaster recovery scenarios
Medical devices
- ECG
- SpO2
- Blood pressure (CardGuard)
- Motion analysis board
- for Parkinson's, to identify uncontrolled shaking and fine-tune dosage -- Code blue
- for detecting falls -- UVA
Groups
- University of Virginia: Alarm-NET
- Intel Research Seattle
- University of Washington
- University of Rochester
- Harvard University
- John Hopkins: AID-N
- University of Alabama at Birmingham: Advanced Network Infrastructure for Health and Disaster Management
Projects
Overview
Project | Domain | Network Architecture | Devices | Sensors | Provides |
Code Blue | Patient monitoring | Motes | Motes | SpO2, HR, EKG, motion | Patient monitoring, Reliable Routing, Localization |
AID-N | Disaster recovery - Triage | x | x | Patient monitoring, Continuous monitoring of triage levels| |
CodeBlue
- AMDR Routing:
- support for pub/sub
- routing state proportional to the # of publishers (an entry in the table for each publisher)
- route discovery initiated when a device requests to publish data, requires flooding
- a subscriber that wants to receive data from a channel sends a route reply on the reverse path (handles asymmetric links)
- routes are updated through periodic floods (every 15s)
- negative results on mobility
- path metric (PDR)
- for each link, estimate LDR by mapping the measured LQI to a link delivery estimator. This model is determined empirically.
- PDR is the product of all LDRs of the links along the path
- see CodeBlue Technical Report
SMART (Scalable Medeical Alert Response Technology)
- Domain: disaster recovery, triage
- Network architecture: 802.11b
- Two types of devices: patient monitoring and caregiver
- Devices: PDAs
- Sensors:
- medical: SpO2, ECG from MIT
- Functions:
- vital sign monitoring
- vital sign analysis & alarms
- localization
Notes:
Good background section.
References:
- Curtis DW, Pino EJ, Bailey JM, Shih EI, Waterman J, Vinterbo SA, Stair TO, Guttag JV, Greenes RA, Ohno-Machado L, SMART An Integrated Wireless System for Monitoring Unattended Patients. J Am Med Inform Assoc 2008 January-February; 15(1):44-53.
AID-N
- AID-N(Advanced Health and Disaster Network)
- Domain: disaster recovery, triage
- Network architecture:
- 802.11 -- one hop
- 802.15.4 -- seems one hop
- Devices: motes, PDAs, PCs
- Sensors:
- medical
- non-medical: GPS
- Functions:
- monitoring and alarm
- vital sign analysis & alarms
References:
- Tia Gao; D. Greenspan; M. Welsh; R.R. Juang; A. Alm, "Vital Signs Monitoring and Patient Tracking Over a Wireless Network," Engineering in Medicine and Biology Society, 2005. IEEE-EMBS 2005. 27th Annual International Conference of the , vol., no., pp.102-105, 2005
Alarm-NET
- Domain: assisted living, circadian activity rhythms (CAR)
- Network architecture:
- Spans body networks, sensor networks and IP networks
- Query service to collect data
- Emphasis on dynamic security
- Use CAR information for security and power management
- Devices: heterogeneous - motes, PDAs and PCs
- Sensors:
- medical: pulse, blood oxygenaton
- non-medical: temperature, light, infrared motion
References:
- A. Wood, G. Virone, T. Doan, Q. Cao, L. Selavo, Y. Wu, L. Fang, Z. He, S. Lin, J. Stankovic, “ALARM-NET: Wireless Sensor Networks for Assisted-Living and Residential Monitoring,” Technical Report