2007 - OSA Fellows For contributions to optical networking and technologies, in particular, wavelength conversion, optical label switching networks, optical routers, and integrated photonics.
The scientist’s investigation covers issues in Optics, Computer network, Electronic engineering, Optical switch and Wavelength-division multiplexing. S. J. B. Yoo works mostly in the field of Optics, limiting it down to topics relating to Chemical vapor deposition and, in certain cases, Energy conversion efficiency, Epitaxy and Wafer bonding. His biological study deals with issues like Distributed computing, which deal with fields such as Defragmentation, Hierarchical routing, Link-state routing protocol and Dynamic Source Routing.
His work carried out in the field of Electronic engineering brings together such families of science as Telecommunications network, Bit error rate and Modulation. His Optical switch research is multidisciplinary, relying on both Optical performance monitoring, Service-level agreement, Network switch and Network simulation. The subject of his Wavelength-division multiplexing research is within the realm of Wavelength.
His primary areas of investigation include Optics, Electronic engineering, Computer network, Optical switch and Optoelectronics. His Optics study incorporates themes from Waveform and Modulation. His studies deal with areas such as Optical performance monitoring, Wavelength-division multiplexing and Optical burst switching as well as Electronic engineering.
In his study, which falls under the umbrella issue of Optical burst switching, Fast packet switching is strongly linked to Burst switching. His study explores the link between Computer network and topics such as Distributed computing that cross with problems in Provisioning. In his work, Optical transistor is strongly intertwined with Optical cross-connect, which is a subfield of Optical switch.
Optics, Computer network, Photonic integrated circuit, Electronic engineering and Distributed computing are his primary areas of study. He combines subjects such as Optoelectronics, Multiplexing and Phase-shift keying with his study of Optics. Bandwidth and Optical switch are among the areas of Electronic engineering where S. J. B. Yoo concentrates his study.
His work deals with themes such as Interconnection, Throughput and Packet switching, which intersect with Optical switch. His Distributed computing research incorporates themes from Routing and Provisioning. His OpenFlow research includes themes of Optical communication and Routing control plane.
S. J. B. Yoo mostly deals with Computer network, Optics, Distributed computing, OpenFlow and Networking hardware. His research integrates issues of Arrayed waveguide grating and Optical add-drop multiplexer in his study of Computer network. His study looks at the intersection of Arrayed waveguide grating and topics like Clos network with Optical switch.
S. J. B. Yoo combines topics linked to Transmission with his work on Optics. His Optical communication study also includes fields such as
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Wavelength conversion technologies for WDM network applications
Journal of Lightwave Technology (1996)
Optical Packet and Burst Switching Technologies for the Future Photonic Internet
Journal of Lightwave Technology (2006)
A unified study of contention-resolution schemes in optical packet-switched networks
Shun Yao;B. Mukherjee;S.J.B. Yoo;S. Dixit.
Journal of Lightwave Technology (2003)
All-optical packet switching for metropolitan area networks: opportunities and challenges
Shun Yao;S.J.B. Yoo;B. Mukherjee;S. Dixit.
IEEE Communications Magazine (2001)
DOS: a scalable optical switch for datacenters
Xiaohui Ye;Paul Mejia;Yawei Yin;Roberto Proietti.
architectures for networking and communications systems (2010)
Spectral and spatial 2D fragmentation-aware routing and spectrum assignment algorithms in elastic optical networks [invited]
Yawei Yin;Huan Zhang;Mingyang Zhang;Ming Xia.
IEEE/OSA Journal of Optical Communications and Networking (2013)
Wavelength conversion by difference frequency generation in AlGaAs waveguides with periodic domain inversion achieved by wafer bonding
S. J. B. Yoo;C. Caneau;R. Bhat;M. A. Koza.
Applied Physics Letters (1996)
Demonstration of free space coherent optical communication using integrated silicon photonic orbital angular momentum devices
Tiehui Su;Ryan P. Scott;Stevan S. Djordjevic;Nicolas K. Fontaine.
Optics Express (2012)
Quasi‐phase‐matched second‐harmonic generation in AlGaAs waveguides with periodic domain inversion achieved by wafer‐bonding
S. J. B. Yoo;R. Bhat;C. Caneau;M. A. Koza.
Applied Physics Letters (1995)
LIONS: An AWGR-Based Low-Latency Optical Switch for High-Performance Computing and Data Centers
Yawei Yin;R. Proietti;Xiaohui Ye;C. J. Nitta.
IEEE Journal of Selected Topics in Quantum Electronics (2013)
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