ALARM-NET: Wireless Sensor Networks for Assisted-Living and Residential Monitoring

We describe ALARM-NET, a wireless sensor network for assisted-living and residential monitoring. It integrates environmental and physiological sensors in a scalable, heterogeneous architecture. A query protocol allows real-time collection and processing of sensor data by user interfaces and back-end analysis programs. One such program determines circadian activity rhythms of residents, feeding activity information back into the sensor network to aid context-aware power management, dynamic privacy policies, and data association. Communication is secured end-to-end to protect sensitive medical and operational information. The ALARM-NET system has been implemented as a network of MICAz sensors, stargate gateways, iPAQ PDAs, and PCs. Customized infrared motion and dust sensors, and integrated temperature, light, pulse, and blood oxygenation sensors are present. Software components include: TinyOS query processor and security modules for motes; AlarmGate, an embedded Java application for managing power, privacy, security, queries, and client connections; Java resident monitoring and sensor data querying applications for PDAs and PCs; and a circadian activity rhythm analysis program. We show the correctness, robustness, and extensibility of the system architecture through a scenario-based evaluation of the integrated ALARM-NET system, as well as performance data for individual software components.

[1]  Tarek F. Abdelzaher,et al.  SATIRE: a software architecture for smart AtTIRE , 2006, MobiSys '06.

[2]  Di Tian,et al.  A node scheduling scheme for energy conservation in large wireless sensor networks , 2003, Wirel. Commun. Mob. Comput..

[3]  Thomas D. Wu The Secure Remote Password Protocol , 1998, NDSS.

[4]  David A. Wagner,et al.  TinySec: a link layer security architecture for wireless sensor networks , 2004, SenSys '04.

[5]  John A. Stankovic,et al.  Behavioral Patterns of Older Adults in Assisted Living , 2008, IEEE Transactions on Information Technology in Biomedicine.

[6]  Sasikanth Avancha,et al.  Security for Sensor Networks , 2004 .

[7]  Atsushi Nakazawa,et al.  Tracking Multiple People using Distributed Vision Systems , 2002, ICRA.

[8]  Matt Welsh,et al.  Monitoring volcanic eruptions with a wireless sensor network , 2005, Proceeedings of the Second European Workshop on Wireless Sensor Networks, 2005..

[9]  尚弘 島影 National Institute of Standards and Technologyにおける超伝導研究及び生活 , 2001 .

[10]  M.E. Hellman,et al.  Privacy and authentication: An introduction to cryptography , 1979, Proceedings of the IEEE.

[11]  Gang Zhou,et al.  VigilNet: An integrated sensor network system for energy-efficient surveillance , 2006, TOSN.

[12]  S. Katz,et al.  STUDIES OF ILLNESS IN THE AGED. THE INDEX OF ADL: A STANDARDIZED MEASURE OF BIOLOGICAL AND PSYCHOSOCIAL FUNCTION. , 1963, JAMA.

[13]  Matt Welsh,et al.  CodeBlue: An Ad Hoc Sensor Network Infrastructure for Emergency Medical Care , 2004 .

[14]  Gregory D. Abowd,et al.  The Aware Home: A Living Laboratory for Ubiquitous Computing Research , 1999, CoBuild.

[15]  S. Katz Studies of illness in the aged , 1963 .