Load Balance Based Access Point Association in Wireless Mesh Networks Ma Tianze Computer Network and Protocol Testing Laboratory, Dept. of Computer Science.
Energy Efficient and Secure, Trusted network discovery for Wireless Sensor Networks
Design & imlementation of tarf
Route stability in mane ts under the random direction mobility model
Growth Codes: Maximizing Sensor Network Data Persistence Abhinav Kamra, Vishal Misra, Dan Rubenstein Department of Computer Science, Columbia University.
Accommodating the Disruption-Tolerant Network Paradigm within GENI Mostafa Ammar College of Computing Georgia Institute of Technology Atlanta, GA.
DNA Research Group 1 Growth Codes: Maximizing Sensor Network Data Persistence Abhinav Kamra, Vishal Misra, Dan Rubenstein Department of Computer Science,
Delay and Disruption Tolerant Networks Mostafa Ammar College of Computing Georgia Institute of Technology Atlanta, GA In Collaboration: Ellen Zegura (GT),
Optimizing Sensor Networks in the Energy-Latency-Density Design Space Curt Schurgers, Vlasios Tsiatsis, Saurabh Ganeriwal, Mani Srivastava, IEEE TRANSACTIONS.
Load Balance Based Access Point Association in Wireless Mesh Networks
Wireless Communication in Multi-agent Autonomous Robotic System Presents by : Niloofar Bahadori, PhD Student Advisor : Dr. Fatemeh Afghah.