2020 - ACM Senior Member
His primary scientific interests are in Computer network, Wavelength-division multiplexing, Optical burst switching, Electronic engineering and Passive optical network. His study connects Distributed computing and Computer network. His biological study spans a wide range of topics, including Multiplexing, Synchronous optical networking and Optical switch.
Survivability is closely connected to Header in his research, which is encompassed under the umbrella topic of Optical burst switching. As a part of the same scientific study, Georgios Ellinas usually deals with the Electronic engineering, concentrating on Wireless and frequently concerns with Intensity modulation, Optical fiber, Subcarrier multiplexing, Data transmission and Free-space optical communication. His research in Passive optical network intersects with topics in Access network, Broadband networks, Fixed–mobile convergence, Time-division multiplexing and Radio over fiber.
His primary areas of study are Computer network, Distributed computing, Wavelength-division multiplexing, Multicast and Electronic engineering. His Computer network study incorporates themes from Passive optical network and Physical layer. His Distributed computing research focuses on Mesh networking and how it relates to Optical mesh network.
His work deals with themes such as Multiplexing, Optical communication, Synchronous optical networking and Optical switch, which intersect with Wavelength-division multiplexing. Many of his research projects under Multicast are closely connected to Optical layer with Optical layer, tying the diverse disciplines of science together. His Electronic engineering research incorporates themes from Optical performance monitoring and Radio over fiber.
His scientific interests lie mostly in Computer network, Frequency allocation, Routing, Mathematical optimization and Eavesdropping. Computer network is closely attributed to Access technology in his research. Georgios Ellinas has included themes like Network planning and design, Network performance, Heuristic, Provisioning and Blocking in his Frequency allocation study.
His Mathematical optimization course of study focuses on Quality of service and Resource allocation, Integer programming and Network topology. In his work, Encryption, Node, Multicast and Spectral efficiency is strongly intertwined with Linear network coding, which is a subfield of Eavesdropping. His biological study deals with issues like Linear programming, which deal with fields such as Backhaul, Queue, Base station, Wavelength-division multiplexing and Optical networking.
His primary areas of investigation include Computer network, Eavesdropping, Routing, Frequency allocation and Linear network coding. His Computer network research is mostly focused on the topic Blocking. The Blocking study combines topics in areas such as Node, Spread spectrum, Spectral efficiency and Multicast.
His Routing study integrates concerns from other disciplines, such as Artificial neural network, Artificial intelligence, Electric vehicle and Computation. His Frequency allocation research focuses on subjects like Network performance, which are linked to Provisioning, Dynamic network analysis and Machine learning. His research investigates the link between Linear network coding and topics such as Encryption that cross with problems in Physical layer.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Key Enabling Technologies for Optical–Wireless Networks: Optical Millimeter-Wave Generation, Wavelength Reuse, and Architecture
Zhensheng Jia;Jianjun Yu;G. Ellinas;Gee-Kung Chang.
Journal of Lightwave Technology (2007)
Protection cycles in mesh WDM networks
G. Ellinas;A.G. Hailemariam;T.E. Stern.
IEEE Journal on Selected Areas in Communications (2000)
Key Technologies of WDM-PON for Future Converged Optical Broadband Access Networks [Invited]
Gee-Kung Chang;A. Chowdhury;Zhensheng Jia;Hung-Chang Chien.
IEEE/OSA Journal of Optical Communications and Networking (2009)
Design and implementation of ultra-low latency optical label switching for packet-switched WDM networks
B. Meagher;G.K. Chang;G. Ellinas;Y.M. Lin.
Journal of Lightwave Technology (2000)
Inter-ring cross-connect for survivable multi-wavelength optical communication networks
Kung Chang Gee;Ellinas Georgious N;Gamelin John K;Iqbal Muhammed Z.
Optical layer survivability and security system using optical label switching and high-speed optical header generation and detection
Gee-Kung Chang;Georgios Ellinas;Richard Graveman;Clyde Monma.
A novel decentralized ethernet-based PON access architecture for provisioning differentiated QoS
S.R. Sherif;A. Hadjiantonis;G. Ellinas;C. Assi.
Journal of Lightwave Technology (2004)
Multiwavelength reconfigurable WDM/ATM/SONET network testbed
Gee-Kung Chang;G. Ellinas;J.K. Gamelin;M.Z. Iqbal.
Journal of Lightwave Technology (1996)
Automatic protection switching for link failures in optical networks with bi-directional links
G. Ellinas;T.E. Stern.
global communications conference (1996)
Stochastic approaches to compute shared mesh restored lightpaths in optical network architectures
E. Bouillet;J.-F. Labourdette;G. Ellinas;R. Ramamurthy.
international conference on computer communications (2002)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: