Difference between revisions of "WU WSN Research Lab"

Revision as of 14:36, 3 December 2008

This is the website of the wireless sensor network (WSN) research group at Washington University in St. Louis. It is run by Gruia-Catalin Roman and Chenyang Lu. For a full list of members, see the Group Members page.

Agilla - A mobile agent middleware for wireless sensor networks.
Building Automation - The use of WSNs for building automation.
Location Directory Service - A mobile entity location monitoring system.
Medical WSNs - Wireless sensor network technology for the medical domain
Real-time WSNs - Real-time support for sensor networks
Structural Health Monitoring - The use of WSNs for monitoring the health of civil structures.
WSN Testbed - A WSN deployment in the WU CSE department, made possible by NSF CRI.

TinyOS 1.x Installation - This provides instructions on how to install TinyOS from the CVS source tree. Note that TinyOS 1.x is no longer in active devepment and that all new projects should use TinyOS 2.x.
Configuring TinyOS 1.x TOSSIM Simuation for CC2420 Radio

Fluid Infrastructure for Wireless Sensor Networks (NSF grant CNS-0520220) - Develop software architectures for WSNs that promote ease of use, flexibility, and extensibility. It is made possible by NSF NeTS-NOSS.
Unified Power Management Architecture - Develop a generic power management architecture that can be used and quickly ported onto any WSN platform. It is made possible by NSF NeTS-NOSS.

Revision as of 23:19, 2 June 2008 (view source) Liangfok (talk \| contribs) ← Older edit		Revision as of 14:36, 3 December 2008 (view source) Gwh2 (talk \| contribs) (→‎Grants & Acknowledgements) Newer edit →
Line 23:		Line 23:

	* [[Fluid Infrastructure for Wireless Sensor Networks]] (NSF grant CNS-0520220) - Develop software architectures for WSNs that promote ease of use, flexibility, and extensibility. It is made possible by NSF NeTS-NOSS.		* [[Fluid Infrastructure for Wireless Sensor Networks]] (NSF grant CNS-0520220) - Develop software architectures for WSNs that promote ease of use, flexibility, and extensibility. It is made possible by NSF NeTS-NOSS.
−	* [~~[Universal~~ Power Management Architecture]] - Develop a generic power management architecture that can be used and quickly ported onto any WSN platform. It is made possible by NSF NeTS-NOSS.	+	* [http://www.cse.wustl.edu/~lu/upma.html Unified Power Management Architecture] - Develop a generic power management architecture that can be used and quickly ported onto any WSN platform. It is made possible by NSF NeTS-NOSS.