Difference between revisions of "WU WSN Research Lab"
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* [[Structural Health Monitoring]] - The use of WSNs for monitoring the health of civil structures. | * [[Structural Health Monitoring]] - The use of WSNs for monitoring the health of civil structures. | ||
− | == Grants == | + | == Grants/Acknowledgements == |
− | * [[Fluid Infrastructure for Wireless Sensor Networks]] - 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. | * [[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. | ||
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Revision as of 18:56, 11 December 2007
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.
Sections
Projects
- Agilla - A mobile agent middleware for wireless sensor networks.
- MLDS - A mobile entity location detection system.
- Servilla - A framework for WSNs that combines aspects of scripting and service provisioning enabling the creation of more flexible applications.
- UMADE - A resource-management system for enabling multiple applications to co-exist in a WSN.
- WSN Testbed - A WSN deployment in the WU CSE department, made possible by NSF CRI.
- Structural Health Monitoring - The use of WSNs for monitoring the health of civil structures.
Grants/Acknowledgements
- 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.