AG Technische Informatik

On-line Monitoring for Model-based QoS Management in IEEE 802.11 Wireless Networks

Katinka Wolter, Philipp Reinecke, Johannes Semmler— 2009

Ensuring Quality of Service (QoS) in wireless networks poses an open problem in many application domains. We propose an automatic on-line QoS monitoring and management infrastructure that can be incorporated into existing network setups. Based on model-based assessment of current and future QoS conditions, our solution will control traffic in the network through a combination of admission control, enforced hand-over, traffic shaping and transmission parameter adjustments. Correctness of the model is evaluated through experimental evaluation and simulations. We implement a prototype of the proposed system using open-source components.

TitelOn-line Monitoring for Model-based QoS Management in IEEE 802.11 Wireless Networks
VerfasserKatinka Wolter, Philipp Reinecke, Johannes Semmler
VerlagProceedings of the 2009 IEEE International Symposium on Modeling Analysis and Simulation of Computer and Telecommunication Systems (MASCOTS), (Jeremy T. Bradley, James M. Conrad, A.J. Field, Uli Harder, William J. Knottenbelt, George F. Riley Ed.), p
Datum2009
Spracheeng
ArtText
BibTeX Code@inproceedings{SWR09a, author = {Johannes Semmler and Katinka Wolter and Philipp Reinecke}, title = {On-line Monitoring for Model-based QoS Management in IEEE 802.11 Wireless Networks}, booktitle = {Proceedings of the 2009 IEEE International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunication Systems (MASCOTS)}, year = {2009}, editor = {Jeremy T. Bradley and James M. Conrad and A.J. Field and Uli Harder and William J. Knottenbelt and George F. Riley}, pages = {311--218}, abstract = {Ensuring Quality of Service (QoS) in wireless networks poses an open problem in many application domains. We propose an automatic on-line QoS monitoring and management infrastructure that can be incorporated into existing network setups. Based on model-based assessment of current and future QoS conditions, our solution will control traffic in the network through a combination of admission control, enforced hand-over, traffic shaping and transmission parameter adjustments. Correctness of the model is evaluated through experimental evaluation and simulations. We implement a prototype of the proposed system using open-source components.}, owner = {phr}, timestamp = {2009.04.28} }