Institution
Ciena
Company•Hanover, Maryland, United States•
About: Ciena is a company organization based out in Hanover, Maryland, United States. It is known for research contribution in the topics: Signal & Node (networking). The organization has 1259 authors who have published 1557 publications receiving 25989 citations.
Topics: Signal, Node (networking), Optical performance monitoring, Optical fiber, Optical cross-connect
Papers published on a yearly basis
Papers
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25 Sep 2014TL;DR: In this article, the authors propose a method, a switch, and a network includes receiving a request for an Ethernet service at a Maintenance End Point (MEP) in a network, wherein the Ethernet service has a destination of a Remote MEP (RMEP), and wherein the request includes bandwidth amounts for the request; utilizing Link Trace messaging to detect an active path to the RMEP; and utilizing Loop Back messaging to reserve bandwidth based on the bandwidth amounts on the active path.
Abstract: A method, a switch, and a network includes receiving a request for an Ethernet service at a Maintenance End Point (MEP) in a network, wherein the Ethernet service has a destination of a Remote MEP (RMEP), and wherein the request includes bandwidth amounts for the request; utilizing Link Trace messaging to the RMEP to detect an active path to the RMEP; and utilizing Loop Back messaging to the RMEP to reserve bandwidth based on the bandwidth amounts on the active path.
6 citations
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04 Apr 2018TL;DR: In this article, a method of managing optical services in a node in an optical network utilizing a flexible grid includes utilizing a Media Channel (MC) Trail Termination Point (TTP) to model frequency allocation of a MC on the node.
Abstract: A method of managing optical services in a node in an optical network utilizing a flexible grid includes utilizing a Media Channel (MC) Trail Termination Point (TTP) to model frequency allocation of a MC on the node; utilizing a Network Media Channel (NMC) Connection Termination Point (CTP) to model a specific port for an optical channel corresponding to the NMC; utilizing a NMC cross connection (CRS) to model a path of the NMC in the MC; and programming hardware in the node based on the MC TTP, the NMC CTP, and the NMC CRS.
6 citations
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07 Jun 2016TL;DR: A software programmable optical transceiver includes one or more Field Programmable Gate Arrays (FPGAs) and an electro-optical front end communicatively coupled to the one or multiple FPGAs.
Abstract: A software programmable optical transceiver includes one or more Field Programmable Gate Arrays (FPGAs); and an electro-optical front end communicatively coupled to the one or more FPGAs, wherein the electro-optical front end comprises a transmitter and a receiver, wherein the transmitter is adapted to transmit a transmit signal from the one or more FPGAs and the receiver is adapted to receive a receive signal and provide to the one or more FPGAs, wherein one or more applications are utilized to dynamically configure the one or more FPGAs for digital functionality to operate the software programmable optical transceiver in an associated mode. The one or more applications are loaded as needed to configure the software programmable optical transceiver in the associated mode, without requiring pre-programmed hardware in the software programmable optical transceiver for operation in a plurality of operating modes.
6 citations
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19 Oct 2007
TL;DR: In this paper, the authors present coherent non-differential detection systems and methods for the detection of optical communication signals by the Brillouin fiber amplification of an optical communication signal carrier.
Abstract: In various exemplary embodiments, the present invention provides coherent non-differential detection systems and methods for the detection of optical communication signals by the Brillouin fiber amplification of an optical communication signal carrier, the coherent non-differential detection systems including: a Sagnac loop including a single-mode fiber span; a fiber span with negligible birefringence (i.e. a spun fiber span or the like); or a fiber loop with negligible birefringence (i.e. a spun fiber loop or the like).
6 citations
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08 Nov 1999TL;DR: In this paper, the inverse operation of nonlinear light wave propagation in a single-mode optical fiber by using the inverse split-step Fourier method was demonstrated, with some numerical distortion depending on system parameters.
Abstract: We have demonstrated the inverse operation of nonlinear light wave propagation in a single-mode optical fiber by using the inverse split-step Fourier method. Most effects are reversible, with some numerical distortion depending on system parameters. The idea of performing an inverse operation to wave propagation in a single-mode fiber unveiled a new aspect of studying nonlinear effects in a single-mode fiber and may provide new approaches to tackle some nonlinear problems in optical fiber communications.
6 citations
Authors
Showing all 1261 results
Name | H-index | Papers | Citations |
---|---|---|---|
Hsiang-Tsung Kung | 65 | 359 | 25458 |
Amir K. Khandani | 48 | 394 | 9590 |
Kim B. Roberts | 41 | 203 | 5605 |
Weidong Zhou | 40 | 314 | 5885 |
Seb J. Savory | 38 | 240 | 7292 |
Zuyuan He | 38 | 498 | 5643 |
Chandra Sekhar Bontu | 37 | 144 | 4147 |
Leo Strawczynski | 33 | 75 | 3795 |
Maurice O'Sullivan | 28 | 126 | 2615 |
John C. Cartledge | 27 | 245 | 2686 |
Qunbi Zhuge | 24 | 180 | 2006 |
Yun Wang | 23 | 77 | 1803 |
David Côté | 22 | 40 | 2254 |
Petar Djukic | 22 | 60 | 1734 |
Andrzej Borowiec | 21 | 53 | 1717 |