Topic
- Computing and Processing
- Components, Circuits, Devices and Systems
- Communication, Networking and Broadcast Technologies
- Power, Energy and Industry Applications
- Signal Processing and Analysis
- Robotics and Control Systems
- General Topics for Engineers
- Fields, Waves and Electromagnetics
- Engineered Materials, Dielectrics and Plasmas
- Bioengineering
- Transportation
- Photonics and Electrooptics
- Engineering Profession
- Aerospace
- Geoscience
- Nuclear Engineering
- Career Development
- Emerging Technologies
- Telecommunications
- English for Technical Professionals
Janise McNair
Also published under:J. McNair, Janise Mcnair, J. Y. McNair, Janise Y. McNair
Affiliation
Department of Electrical and Computer Engineering, University of Florida, Gainesville, FL
Topic
Denial Of Service,Inter-arrival Time,Transmission Delay,Arrival Rate,Network Performance,Communication Network,Cyber Attacks,False Data Injection,Machine Learning,Packet Arrival,Power Grid,Smart Grid,Unmanned Aerial Vehicles,Wireless Networks,Application Programming Interface,Base Station,Black Hole,Communication Layer,Exponential Distribution,Jamming Attacks,Learning Algorithms,Network Operators,Probability Density Function,Round-trip Time,Central Station,Control Plane,Cyber-physical Systems,Data-driven Models,False Data Injection Attacks,Gradient Boosting,Gradient Boosting Machine,Information And Communication Technologies,Injection Attacks,Intrusion Detection System,Machine Learning Models,Master Controller,Military Vehicles,Mobility Model,Network Management,Network Metrics,Network State,Physics-based Models,Prediction Analysis,Propagation Delay,Queueing System,Service Quality,Shortest Path,Train Machine Learning,5G Networks,Abnormal Behavior,
Biography
Janise McNair is a professor of electrical & computer engineering at the University of Florida (@ECE Florida). She is a researcher in the field of wireless networks and Internet of Things applications. Currently, her research creates frameworks for integrating IoT with 5G and 6G cellular systems. She was a pioneer in early next generation mobility management for cellular systems as well as the development of multi-discipline, cross-layer systems for smart grid security analysis. She is developing new test beds and systems for IoT for construction site safety and security and IoT systems for agriculture and food safety. McNair earned her B.S. and M.S. degrees from the University of Texas at Austin and her Ph.D. degree in ECE from Georgia Institute of Technology, with a research focus on medium access control and mobility management in next generation wireless networks.