Realistic Simulation of Wireless Networks
Simulation is commonly used in networking research to prototype and validate new protocols and ideas. Hence, the realism of these simulators is crucial in order for the results they produce to be trustworthy and interpretable. To this end, we are working to find limitations in existing simulation methodologies and improve them through direct measurement, modeling, and implementation.
- Eric Anderson, Gary Yee, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. The Impact of Directional Antenna Models on Simulation Accuracy. 7th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt 2009). Seoul, Korea. June 23 – 27, 2009.
- Caleb Phillips, Suresh Singh, Douglas Sicker, and Dirk Grunwald. Techniques for Simulation of Realistic Infrastructure Wireless Network Traffic. 7th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt 2009). Seoul, Korea. June 23 – 27, 2009.
Software and Data
Directional and Steerable Antennas for Optimizing Networks
PIs: Douglas Sicker and Dirk Grunwald
Directional Antennas emphasize gain in some directions and de-emphasize it in others. Steerable and phased array antennas allow these patterns to be changed in real-time.
As the demand for wireless networks grows, the research community continues to seekmethods for improving network performance. On method for improving network throughput involves using directional antennas to increase signal gain and/or decrease interference. Our work in this area focuses on real-world development and evaluation of directional and phased array antenna systems. To this end, we have built the first large-scale testbed of outdoor phased array antennas, suggested new models for directional antenna use in simulations based on measurements, and have proposed new protocols that optimize their behavior in both time and space.
The CU WART testbed is the first wide area testbed of functional phased array antennas
- Eric Anderson, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. Signal Quality Pricing: Decomposition for Spectrum Scheduling and System Configuration. IEEE Dynamic Spectrum Access Networks 2011 (DySPAN 2011). Aachen, Germany. May 3-6, 2011.
- Eric Anderson, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. Modeling Environmental Effects on Directionality. Mathematical and Computer Modeling Journal. Special Issue on Modeling and Simulation of Wireless Networks. June, 2010. Elsevier.
- Eric Anderson, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. Challenges in Deploying Steerable Wireless Testbeds. TridentCom 2010. Berlin, Germany. May 18-20, 2010.
- Gary Yee, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. Wireless Networking Optimizations for Studying Algorithm Interactions. University of Colorado at Boulder, Tech. Report. CU-CS-1070-10. 2010.
- Eric Anderson, Caleb Phillips, Douglas Sicker, and Dirk Grunwald. Modeling Environmental Effects on Directionality in Wireless Networks. 5th International workshop on Wireless Network Measurements (WiNMee 2009). Seoul, Korea. June 26, 2009.
- Michael Buettner, Eric Anderson, Gary Yee, Dola Saha, Doug Sicker, Dirk Grunwald – A Phased Array Antenna Testbed for Evaluating Directionality in Wireless Networks. MobiEval ’07 , San Juan, Puerto Rico, USA, June, 2007.
- Neufeld, M., Grunwald, D. – Using phase array antennas with the 802.11 MAC protocol. Broadband Networks, 2004. BroadNets 2004. Proceedings. First International Conference on pp. 733-735, 25-29 Oct. 2004
Software and Data Downloads