The Experts below are selected from a list of 3777 Experts worldwide ranked by ideXlab platform
Zhong Pan - One of the best experts on this subject based on the ideXlab platform.
-
demonstration of an optical label switching router with multicast and contention resolution at mixed data rates
IEEE Photonics Technology Letters, 2006Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S J B YooAbstract:This letter experimentally demonstrates a scalable optical-label switching router architecture that supports a limited multicast function. A semiconductor-optical-amplifier-based Mach-Zehnder interferometer wavelength converter performs multiwavelength conversion for multicast at 10 Gb/s by cross-phase modulation. With a 2.5-Gb/s unicast channel, the experiment also demonstrates contention resolution in the wavelength domain at mixed data rates.
-
Experimental demonstration of a multicast-capable optical-label switching router
OFC NFOEC Technical Digest. Optical Fiber Communication Conference 2005., 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S. J.ben YooAbstract:This paper proposes and demonstrates an optical-label switching router with limited multicast capability. A multi-wavelength converter is the key sub-system enabling packet replication. The experimental demonstration shows correct packet multicast forwarding.
-
experimental demonstration of multicast in an optical label switching router with mixed data rates of 10 gb s and 2 5 gb s
European Conference on Optical Communication, 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, M Funabashi, S J B YooAbstract:This paper experimentally demonstrates multicast packet forwarding in an optical-label switching router with mixed data rates of 10 Gb/s and 2.5 Gb/s. The demonstration employs multi-wavelength conversion in integrated Mach-Zehnder interferometer with semiconductor optical amplifiers. (2 pages)
-
Demonstration of variable-length packet contention resolution and packet forwarding in an optical-label switching router
IEEE Photonics Technology Letters, 2004Co-Authors: Zhong Pan, Steven Butt, Sajid Butt, Venkatesh Akella, Haijun Yang, Zuqing Zhu, Jing Cao, S. J.ben YooAbstract:This letter presents experimental demonstrations of variable-length optical packet switching with all-optical contention resolution "on the fly" on a packet-by-packet basis by incorporating an optical router controller that examines a packet length field in the optical label. The experimental results show the effectiveness of the contention resolution and indicate error-free operation.
Haijun Yang - One of the best experts on this subject based on the ideXlab platform.
-
demonstration of an optical label switching router with multicast and contention resolution at mixed data rates
IEEE Photonics Technology Letters, 2006Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S J B YooAbstract:This letter experimentally demonstrates a scalable optical-label switching router architecture that supports a limited multicast function. A semiconductor-optical-amplifier-based Mach-Zehnder interferometer wavelength converter performs multiwavelength conversion for multicast at 10 Gb/s by cross-phase modulation. With a 2.5-Gb/s unicast channel, the experiment also demonstrates contention resolution in the wavelength domain at mixed data rates.
-
All-Optical Signal Processing in Photonic Label Switching routers
Optical Amplifiers and Their Applications, 2005Co-Authors: Haijun YangAbstract:This paper proposes and demonstrates an optical-label switching router with all-optical time-to-live, performance monitoring, label swapping, and 2R regeneration. Experimental results of unicast and multicast packet forwarding with contention resolution of asynchronously arriving variable-length packets.
-
Experimental demonstration of a multicast-capable optical-label switching router
OFC NFOEC Technical Digest. Optical Fiber Communication Conference 2005., 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S. J.ben YooAbstract:This paper proposes and demonstrates an optical-label switching router with limited multicast capability. A multi-wavelength converter is the key sub-system enabling packet replication. The experimental demonstration shows correct packet multicast forwarding.
-
experimental demonstration of multicast in an optical label switching router with mixed data rates of 10 gb s and 2 5 gb s
European Conference on Optical Communication, 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, M Funabashi, S J B YooAbstract:This paper experimentally demonstrates multicast packet forwarding in an optical-label switching router with mixed data rates of 10 Gb/s and 2.5 Gb/s. The demonstration employs multi-wavelength conversion in integrated Mach-Zehnder interferometer with semiconductor optical amplifiers. (2 pages)
-
Demonstration of variable-length packet contention resolution and packet forwarding in an optical-label switching router
IEEE Photonics Technology Letters, 2004Co-Authors: Zhong Pan, Steven Butt, Sajid Butt, Venkatesh Akella, Haijun Yang, Zuqing Zhu, Jing Cao, S. J.ben YooAbstract:This letter presents experimental demonstrations of variable-length optical packet switching with all-optical contention resolution "on the fly" on a packet-by-packet basis by incorporating an optical router controller that examines a packet length field in the optical label. The experimental results show the effectiveness of the contention resolution and indicate error-free operation.
Zuqing Zhu - One of the best experts on this subject based on the ideXlab platform.
-
demonstration of an optical label switching router with multicast and contention resolution at mixed data rates
IEEE Photonics Technology Letters, 2006Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S J B YooAbstract:This letter experimentally demonstrates a scalable optical-label switching router architecture that supports a limited multicast function. A semiconductor-optical-amplifier-based Mach-Zehnder interferometer wavelength converter performs multiwavelength conversion for multicast at 10 Gb/s by cross-phase modulation. With a 2.5-Gb/s unicast channel, the experiment also demonstrates contention resolution in the wavelength domain at mixed data rates.
-
Experimental demonstration of a multicast-capable optical-label switching router
OFC NFOEC Technical Digest. Optical Fiber Communication Conference 2005., 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S. J.ben YooAbstract:This paper proposes and demonstrates an optical-label switching router with limited multicast capability. A multi-wavelength converter is the key sub-system enabling packet replication. The experimental demonstration shows correct packet multicast forwarding.
-
experimental demonstration of multicast in an optical label switching router with mixed data rates of 10 gb s and 2 5 gb s
European Conference on Optical Communication, 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, M Funabashi, S J B YooAbstract:This paper experimentally demonstrates multicast packet forwarding in an optical-label switching router with mixed data rates of 10 Gb/s and 2.5 Gb/s. The demonstration employs multi-wavelength conversion in integrated Mach-Zehnder interferometer with semiconductor optical amplifiers. (2 pages)
-
Demonstration of variable-length packet contention resolution and packet forwarding in an optical-label switching router
IEEE Photonics Technology Letters, 2004Co-Authors: Zhong Pan, Steven Butt, Sajid Butt, Venkatesh Akella, Haijun Yang, Zuqing Zhu, Jing Cao, S. J.ben YooAbstract:This letter presents experimental demonstrations of variable-length optical packet switching with all-optical contention resolution "on the fly" on a packet-by-packet basis by incorporating an optical router controller that examines a packet length field in the optical label. The experimental results show the effectiveness of the contention resolution and indicate error-free operation.
S J B Yoo - One of the best experts on this subject based on the ideXlab platform.
-
demonstration of an optical label switching router with multicast and contention resolution at mixed data rates
IEEE Photonics Technology Letters, 2006Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S J B YooAbstract:This letter experimentally demonstrates a scalable optical-label switching router architecture that supports a limited multicast function. A semiconductor-optical-amplifier-based Mach-Zehnder interferometer wavelength converter performs multiwavelength conversion for multicast at 10 Gb/s by cross-phase modulation. With a 2.5-Gb/s unicast channel, the experiment also demonstrates contention resolution in the wavelength domain at mixed data rates.
-
experimental demonstration of multicast in an optical label switching router with mixed data rates of 10 gb s and 2 5 gb s
European Conference on Optical Communication, 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, M Funabashi, S J B YooAbstract:This paper experimentally demonstrates multicast packet forwarding in an optical-label switching router with mixed data rates of 10 Gb/s and 2.5 Gb/s. The demonstration employs multi-wavelength conversion in integrated Mach-Zehnder interferometer with semiconductor optical amplifiers. (2 pages)
S. J.ben Yoo - One of the best experts on this subject based on the ideXlab platform.
-
Experimental demonstration of a multicast-capable optical-label switching router
OFC NFOEC Technical Digest. Optical Fiber Communication Conference 2005., 2005Co-Authors: Zhong Pan, Haijun Yang, Zuqing Zhu, S. J.ben YooAbstract:This paper proposes and demonstrates an optical-label switching router with limited multicast capability. A multi-wavelength converter is the key sub-system enabling packet replication. The experimental demonstration shows correct packet multicast forwarding.
-
Demonstration of variable-length packet contention resolution and packet forwarding in an optical-label switching router
IEEE Photonics Technology Letters, 2004Co-Authors: Zhong Pan, Steven Butt, Sajid Butt, Venkatesh Akella, Haijun Yang, Zuqing Zhu, Jing Cao, S. J.ben YooAbstract:This letter presents experimental demonstrations of variable-length optical packet switching with all-optical contention resolution "on the fly" on a packet-by-packet basis by incorporating an optical router controller that examines a packet length field in the optical label. The experimental results show the effectiveness of the contention resolution and indicate error-free operation.
