Difference between revisions of "Protocols and Analysis for Predictable Wireless Sensor Networks"
| Line 8: | Line 8: | ||
== Publications == | == Publications == | ||
| − | * O. Chipara, C. Lu and G.-C. Roman, Real-time Query Scheduling for | + | * O. Chipara, C. Lu and G.-C. Roman, Real-time Query Scheduling for Wireless Sensor Networks, IEEE Transactions on Computers, accepted. [[http://www.cse.wustl.edu/~lu/papers/tc-rtqs.pdf PDF]] |
| − | Wireless Sensor Networks, IEEE Transactions on Computers, accepted. [[http:// | ||
* Y. Fu, M. Sha, G. Hackmann and C. Lu. Practical Control of | * Y. Fu, M. Sha, G. Hackmann and C. Lu. Practical Control of | ||
Transmission Power for Wireless Sensor Networks, IEEE International | Transmission Power for Wireless Sensor Networks, IEEE International | ||
| − | Conference on Network Protocols (ICNP'12), October 2012. [[http:// | + | Conference on Network Protocols (ICNP'12), October 2012. [[http://www.cs.wustl.edu/~lu/publications.html PDF]] |
* R. Dor, G. Hackmann, Z. Yang, C. Lu, Y. Chen, M. Kollef and T.C. | * R. Dor, G. Hackmann, Z. Yang, C. Lu, Y. Chen, M. Kollef and T.C. | ||
Bailey, Experiences with an End-To-End Wireless Clinical Monitoring | Bailey, Experiences with an End-To-End Wireless Clinical Monitoring | ||
| − | System, Conference on Wireless Health (WH'12), October 2012. [[http:// | + | System, Conference on Wireless Health (WH'12), October 2012. [[http://www.cse.wustl.edu/~lu/papers/wh12.pdf PDF]] |
* A. Saifullah, C. Wu, P. Tiwari, Y. Xu, Y. Fu, C. Lu and Y. Chen, Near | * A. Saifullah, C. Wu, P. Tiwari, Y. Xu, Y. Fu, C. Lu and Y. Chen, Near | ||
Optimal Rate Selection for Wireless Control Systems, IEEE Real-Time | Optimal Rate Selection for Wireless Control Systems, IEEE Real-Time | ||
and Embedded Technology and Applications Symposium (RTAS'12), April | and Embedded Technology and Applications Symposium (RTAS'12), April | ||
| − | 2012. Best Paper Candidate. [[http:// | + | 2012. Best Paper Candidate. [[http://www.cse.wustl.edu/~lu/papers/rtas12-wireless-control.pdf PDF]] |
* C. Wu, Y. Xu, Y. Chen and C. Lu, Submodular Game for Distributed | * C. Wu, Y. Xu, Y. Chen and C. Lu, Submodular Game for Distributed | ||
Application Allocation in Shared Sensor Networks, IEEE International | Application Allocation in Shared Sensor Networks, IEEE International | ||
| − | Conference on Computer Communications (INFOCOM'12), March 2012. [[http:// | + | Conference on Computer Communications (INFOCOM'12), March 2012. [[http://www.cse.wustl.edu/~lu/papers/infocom12.pdf PDF]] |
If you have any questions or comments, feel free to email Mo Sha at [mailto:msha@wustl.edu msha@wustl.edu]. | If you have any questions or comments, feel free to email Mo Sha at [mailto:msha@wustl.edu msha@wustl.edu]. | ||
Revision as of 21:05, 19 September 2012
Octav Chipara, Farley Lai, Chenyang Lu, William G. Griswold
The next generation of wireless sensor networks will monitor critical infrastructure, collect vital signs from patients, and disseminate medical and planning information during emergency responses. In contrast to earlier wireless sensor networks for which best-effort services were sufficient, such systems require predictable performance and high reliability. Failure to meet these requirements may have significant adverse effects. This project aims at the development of an engineering methodology for predictable wireless sensor networks. A predictable wireless sensor network is a system for which it is possible to check that its requirements are met under reasonable assumptions regarding its workload and network properties. This project enables the development of predictable wireless sensor networks by providing developers with analytical tools to characterize and optimize the performance of sensor network systems. The intellectual merit of the project includes: (i) Statistical methods for assessing the properties of wireless sensor networks and for provisioning resources to achieve robustness in spite of node failures or temporal variations; (ii) Novel transmission scheduling techniques that ensure a system meets its reliability and real-time requirements; (iii) A new schedulability analysis that bounds network capacity and message latencies under realistic interference models; and (iv) A wireless architecture that instantiates proposed transmission scheduling techniques and the schedulability analysis. In terms of broader impacts, this project will help advance our national capability to develop performance-critical wireless systems. The PIs will teach the developed design and analytical techniques as part of wireless sensor network curriculum and share them with the research community through tutorials.
Publications
- O. Chipara, C. Lu and G.-C. Roman, Real-time Query Scheduling for Wireless Sensor Networks, IEEE Transactions on Computers, accepted. [PDF]
- Y. Fu, M. Sha, G. Hackmann and C. Lu. Practical Control of
Transmission Power for Wireless Sensor Networks, IEEE International Conference on Network Protocols (ICNP'12), October 2012. [PDF]
- R. Dor, G. Hackmann, Z. Yang, C. Lu, Y. Chen, M. Kollef and T.C.
Bailey, Experiences with an End-To-End Wireless Clinical Monitoring System, Conference on Wireless Health (WH'12), October 2012. [PDF]
- A. Saifullah, C. Wu, P. Tiwari, Y. Xu, Y. Fu, C. Lu and Y. Chen, Near
Optimal Rate Selection for Wireless Control Systems, IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS'12), April 2012. Best Paper Candidate. [PDF]
- C. Wu, Y. Xu, Y. Chen and C. Lu, Submodular Game for Distributed
Application Allocation in Shared Sensor Networks, IEEE International Conference on Computer Communications (INFOCOM'12), March 2012. [PDF]
If you have any questions or comments, feel free to email Mo Sha at msha@wustl.edu.
Acknowledgements
This work was supported, in part, by generous support from NSF CNS-1144552.
