基本信息
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职业迁徙
个人简介
My research area is in Networked Systems broadly defined. The focus is on system level design insights
drawn from characterization of fundamental performance limits of such systems. Core research disciplines and
tools that we engage include information theory, optimization, communication theory and signal processing. We
are generally interested in systems consisting of multiple entities that communicate, network and compute. We
are also interested in developing algorithms approaching or achieving optimal design criteria. There are diverse
applications of our research in next generation multi-genre networks (for example social communication and
tactical networks) and content delivery networks, as well as wired and wireless communication networks of the
future (for example Internet of Things (IoT) and energy-sustainable networking). More specifics topics are:
Energy-Conscious Communications
Wireless networks with energy harvesting nodes
Energy and signal cooperation in communication networks
Energy harvesting distributed storage and caching
Information Security
Information theoretic security over multi-terminal wireless networks
New models and information theoretic guarantees for powerful adversaries
Integrating information theoretic security to other security mechanisms for the IoT era
Content Delivery Networks
Coded caching over noisy channels
Coded caching for heterogenous wireless networks
Modern Communication Theory
Emerging communication, sensing and computing paradigms for the IoT era
Age of Information
Multiterminal Information Theory
Information theory of wireless networks: capacity of models with state, feedback, and cooperation
Interactive compression and function computation
Network and Data Science
Fundamental limits of reliable information flow over social communication networks
Learning algorithms with performance guarantees
drawn from characterization of fundamental performance limits of such systems. Core research disciplines and
tools that we engage include information theory, optimization, communication theory and signal processing. We
are generally interested in systems consisting of multiple entities that communicate, network and compute. We
are also interested in developing algorithms approaching or achieving optimal design criteria. There are diverse
applications of our research in next generation multi-genre networks (for example social communication and
tactical networks) and content delivery networks, as well as wired and wireless communication networks of the
future (for example Internet of Things (IoT) and energy-sustainable networking). More specifics topics are:
Energy-Conscious Communications
Wireless networks with energy harvesting nodes
Energy and signal cooperation in communication networks
Energy harvesting distributed storage and caching
Information Security
Information theoretic security over multi-terminal wireless networks
New models and information theoretic guarantees for powerful adversaries
Integrating information theoretic security to other security mechanisms for the IoT era
Content Delivery Networks
Coded caching over noisy channels
Coded caching for heterogenous wireless networks
Modern Communication Theory
Emerging communication, sensing and computing paradigms for the IoT era
Age of Information
Multiterminal Information Theory
Information theory of wireless networks: capacity of models with state, feedback, and cooperation
Interactive compression and function computation
Network and Data Science
Fundamental limits of reliable information flow over social communication networks
Learning algorithms with performance guarantees
研究兴趣
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IEEE Journal on Selected Areas in Communicationsno. 6 (2001): 1041-1051
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