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
Mostafa H. Ammar
Also published under:M. Ammar, M. H. Ammar, Mostafa Ammar
Affiliation
Georgia Institute of Technology, Atlanta, GA, USA
Topic
Audio Stream,Live Streaming,Microphone,Quality Of Experience,1D Convolution,1D Convolutional Layers,5G Edge,AI Models,Absence Of Flow,Android Devices,Application Layer,Battery Level,Bidding,Bitrate,Capabilities Of Devices,Cloud Computing,Computation Offloading,Confounding Factors,Consumption Context,Conversational Context,Convolutional Neural Network,Data Transfer,Decrease In Latency,Deep Learning,Deep Learning Approaches,Denial Of Service,Device Ownership,Edge Computing,Edge Server,End Devices,Energy Consumption,Federated Learning,Flow Characteristics,Flow Control,General Protocol,General Requirements,Generalized Linear Mixed Models,Human-computer Interaction,Image Resolution,Line-of-sight,Live Broadcast,Live Video,Local Context,Local Media,Local Storage,Media Consumption,Media Context,Media Production,Median Latency,Mixed Reality,
Biography
Mostafa H. Ammar (Life Fellow, IEEE) received the Ph.D. degree from the University of Waterloo, Canada in 1985. He is a Regents’ Professor with the School of Computer Science at Georgia Institute of Technology, Atlanta, GA, USA. His research interests are in network architectures, protocols, and services. He has contributions in many areas within networking research, most recently in disruption-tolerant networks, mobile cloud computing, network virtualization, packet scheduling in modern networks, and adaptive video streaming.