Including Compensation Patents (Class 398/158)
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Patent number: 7444082Abstract: A method for the adaptive adjustment of a PMD compensator in optical fiber communication systems comprises the steps of taking the signal at the compensator output and extracting the components y1(t) and y2(t) on the two orthogonal polarizations, computing the signal y(t)=[y1(t)]2+[y2(t)]2, sampling the signal y(t) at instants tk=kT with T=symbol interval to obtain samples y(tk), computing the mean square error e(k)=y(tk)?u(k) with u(k) equal to the symbol transmitted, and adjusting the parameters of the compensator to seek to minimize e(k).Type: GrantFiled: December 3, 2002Date of Patent: October 28, 2008Assignee: Ericsson ABInventors: Giulio Colavolpe, Enrico Forestieri, Giancarlo Prati
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Patent number: 7440702Abstract: A multiplexer of a transmission section generates a clock signal by multiplying a reference clock signal of a digital image signal by a predetermined number ‘K’. A parallel digital image signal is converted into a serial digital signal on the basis of the clock signal, and the serial digital signal is converted into an optical signal in an optical transmission section for transmitting. A demultiplexer extracts a reception clock signal from a serial digital reception signal which is converted into an electric signal in an optical reception section of a reception section, the serial digital reception signal is converted into a parallel signal and a signal corresponding to the parallel digital image signal on the basis of the reception clock signal, and a clock signal corresponding to the reference clock signal is recovered by multiplying the reception clock signal by ‘1/K’.Type: GrantFiled: August 9, 2004Date of Patent: October 21, 2008Assignee: Seiko Epson CorporationInventor: Nobuyuki Imai
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Patent number: 7437068Abstract: An optical communication link has a plurality of light emitting elements and a plurality of light receiving elements associated with the respective light emitting elements, and a plurality of optical fibers each for conveying an optical signal emitted from one light emitting element to an associated light receiving element. The optical fibers have respective lengths that include at least two different lengths, and respective transmission losses per unit length that vary according the lengths of the optical fibers, so that variation of the transmission losses among the optical fibers due to difference in optical fiber length is prevented.Type: GrantFiled: September 17, 2002Date of Patent: October 14, 2008Assignee: Sharp Kabushiki KaishaInventors: Yorishige Ishii, Toshihiro Tamura
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Patent number: 7437080Abstract: An optical transmission system having optical transmit and receive filters having passbands adjusted or selected for opposite and equal wavelength offsets from the optical wavelength of a carrier or the channel center wavelength.Type: GrantFiled: February 3, 2005Date of Patent: October 14, 2008Assignee: Stratalight Communications, Inc.Inventors: Theodore J. Schmidt, Anhui H. Liang
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Patent number: 7437083Abstract: A wavelength converter for binary optical signals includes an interferometer structure (110) for generating an output signal by modulating a received local signal (LS) according to the modulation of a fUrther received first input signal (IS 1). When such interferometer structures (110) are operated in a standard mode it is known in the art to control the power of the input signal such that the extinction ratio of the output signal is kept minimal. The invention also controls the power of the input signals to achieve the minimal extinction ratio when the wavelength converter and in particular the interferometer structure (110) is operated in a differential mode receiving two input signals.Type: GrantFiled: September 10, 2004Date of Patent: October 14, 2008Assignee: ALCATELInventors: Bruno Lavigne, Olivier Leclerc, Jean-Luc Moncelet, Alex Bombrun, Jean-Baptiste Pomet, Fabien Seyfert
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Publication number: 20080226301Abstract: A system and method for increasing spectral efficiency, capacity and/or extending dispersion-limited reach in a communication link employs narrow filtering of a baseband signal to reduce the original bandwidth to a substantially smaller bandwidth for transmission across a transmission medium such as an optical fiber. By restricting the bandwidth, the rate of spreading is reduced significantly. The receiver at the other end of the transmission medium includes an equalizer for returning the received signal to its original bandwidth for retrieval of information contained in the signal.Type: ApplicationFiled: April 25, 2006Publication date: September 18, 2008Inventors: Nikola Alic, Stojan Radic, George Papen, Yeshaiahu Fainman
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Publication number: 20080226300Abstract: A system and method for demodulating an optical differential-phase-shift-keyed (DPSK) input signal using a Fabray-Perot etalon filter. In one embodiment the system receives a transmitted wavefront from the etalon filter and uses a detector to generate an electrical waveform from the transmitted wavefront. A comparator is used to receive an output from the detector and to generate a signal in accordance with each phase shift (i.e., bit transition) in the optical DPSK input signal. A latching flip-flop receives an output from the comparator and generates a digital signal representative of the bit pattern of the DPSK input signal. The system and method does not require the precisely matched dual optical paths of a Mach-Zehnder interferometer, and therefore is substantially less susceptible to thermal effects that could influence the operation of a conventional Mach-Zehnder interferometer in DPSK demodulation operations.Type: ApplicationFiled: March 12, 2007Publication date: September 18, 2008Inventors: Richard C. Mayer, Chester L. Balestra
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Patent number: 7424228Abstract: A communication system includes an optical transmitter which is differentially driven and an optical receiver that outputs a differential signal. The optical transmitter creates the differential drive signal from an input signal and delivers the differential drive signal to a laser. The differential drive signal is generated with a transformer and RF chokes for floating the laser above ground. The signal detected by the receiver is input as a differential signal to a transformer which then passes the signal through amplifiers and a filter. The optical communication system provides an increased spurious-free dynamic range which is well suited for RF signals and other analog signals.Type: GrantFiled: March 31, 2003Date of Patent: September 9, 2008Assignee: Lockheed Martin CorporationInventors: Wilber Andrew Williams, Michael Gregory Abernathy
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Patent number: 7421209Abstract: An optical wavelength multiplexing frequency shift keying modulation system. The system includes an optical wavelength multiplexing signal acquisition unit for outputting an optical wavelength multiplexing signal. A n optical frequency shift keying modulation unit acquires an optical frequency shift keying signal, including an upper side band signal and a lower side band signal, by performing frequency modulation to the optical wavelength multiplexing signal output from the optical wavelength multiplexing signal acquisition unit. An optical frequency shift keying signal separation unit separates the optical frequency shift keying signal output from the optical frequency shift keying modulation unit into an upper side band signal and a lower side band signal.Type: GrantFiled: February 14, 2005Date of Patent: September 2, 2008Assignee: National Institute of Information and Communications Technology, Incorporated Administrative AgencyInventors: Tetsuya Kawanishi, Masayuki Izutsu
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Patent number: 7418212Abstract: A system and method for detecting digital symbols carried in a received optical signal. The system comprises a functional element operative to receive a stream of samples of an electrical signal derived from the received optical signal and to evaluate a non-linear function of each received sample, thereby to produce a stream of processed samples. The system also comprises a detector operative to render decisions about individual symbols present in the received optical signal on the basis of the stream of processed samples. In an embodiment, the non-linear function computes substantially the square root of each received sample.Type: GrantFiled: October 1, 2003Date of Patent: August 26, 2008Assignee: Nortel Networks LimitedInventor: Chandra Bontu
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Patent number: 7418206Abstract: It is an object of the present invention to provide a control technique for reducing wavelength dependence of wavelength dispersion values and also for suppressing a change in wavelength transmission characteristic with a temperature variation or the like, in a VIPA-type wavelength dispersion compensator.Type: GrantFiled: March 25, 2004Date of Patent: August 26, 2008Assignee: Fujitsu LimitedInventor: Yuichi Kawahata
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Patent number: 7412170Abstract: A wavelength division multiplexing (WDM) module for transmitting and/or receiving multiple signals simultaneously includes an array of vertical cavity surface emitting lasers (VCSELs) and/or photodetectors, respectively. In the transmitter case, different VCSELs are operated at different wavelengths that change depending on a value of a condition such as temperature and/or one or more other parameters. Multiple VCSELs are assigned to each channel of the WDM. The currently active VCSEL is switched to a different VCSEL assigned to a same channel and preferably having an operating wavelength that is closer to the signal wavelength at the current measured or estimated temperature and/or other parameter value. Multiple photodetectors are assigned to each channel of the WDM, and currently active detector is switched to the second detector within the same channel.Type: GrantFiled: May 24, 2004Date of Patent: August 12, 2008Assignee: Opticomp CorporationInventors: Duane A. Louderback, Peter Guilfoyle
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Publication number: 20080181617Abstract: Disclosed is a method and an apparatus for correcting a color imbalance of visible light in wavelength division parallel visible light communications. The method includes the steps of: inverting an original signal including information by a visible light communication transmitter; transmitting the original signal including the information and an inverted signal from the visible light communication transmitter to a visible light communication receiver, receiving the original signal including the information and the inverted signal by the visible light communication receiver, reinverting the inverted signal among the received signals by the visible light communication receiver, restoring the inverted signal back to its state prior to the inversion by reinverting the inverted signal by the visible light communication receiver, and performing a diversity combination on the original signal and a restored signal.Type: ApplicationFiled: August 15, 2007Publication date: July 31, 2008Inventor: Jong-Hoon Ann
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Patent number: 7406265Abstract: A fiber optic communication signal link apparatus for performing fiber optic link communication including a transmitter apparatus and a receiver apparatus coupled by a fiber optic cable. The transmitter is capable of detecting and modulating data that includes at least one of position, light and audio data. An analog voltage signal representing the data is transmitted to the transmitter apparatus wherein the signal is detected, converted to a frequency signal and modulated through the fiber optic cable to the receiver apparatus. Subsequently, the frequency signal is detected, demodulated and converted back to a voltage analog signal in the receiver apparatus.Type: GrantFiled: October 28, 2004Date of Patent: July 29, 2008Assignee: Michigan Scientific Corp.Inventors: Hugh W. Larson, Paul J. Morand
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Patent number: 7403717Abstract: Method and apparatus for compensating for first-order Polarization Mode Dispersion in an optical transmission system. An apparatus has a polarization controller for transforming polarization components of an optical signal carried by the optical fiber into orthogonal polarization states, a variable delay line for introducing a variable differential time delay between the polarization states and for producing an output optical signal that is compensated for PMD in the optical fiber, and a feedback unit for adjusting the polarization controller and the variable delay line to compensate for variations in the PMD of the optical fiber, the feedback unit including apparatus for generating a plurality of independent control signals to independently control actuators of the polarization controller and the variable delay line. The invention provides for a reduction in response time of the actuators and a reduction in complexity of an algorithm used to control the apparatus.Type: GrantFiled: April 18, 2002Date of Patent: July 22, 2008Assignee: Telefonaktiebolaget LM Ericsson (publ)Inventors: Jean Pierre von der Weid, Luis Carlos Blanco Linares, Giancarlo Vilela de Faria
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Patent number: 7400829Abstract: A transmission apparatus that receives an optical signal by selecting any one of a plurality of provided optical signal transmission paths through protection control is configured to include a plurality of optical signal outputting sections that output the optical signals transmitted through said optical signal transmission paths respectively as optical signals having wavelengths that are different from each other, a wavelength selective optical switch capable of selectively outputting light of a wavelength corresponding to any one of the optical signals coming from the optical signal outputting sections on the basis of the frequency of a controlling frequency signal, and an optical switch controlling section that supplies said controlling frequency signal to the wavelength selective optical switch so as to output the optical signal coming from the optical signal transmission path side that is selected by said protection control among the optical signals coming from the optical signal outputting sections.Type: GrantFiled: January 19, 2005Date of Patent: July 15, 2008Assignee: Fujitsu LimitedInventor: Kenji Watanabe
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Patent number: 7398022Abstract: An apparatus and a method for transmitting at least a digital optical signal with return-to-zero phase-shift keying, employing a single optical modulator with dual-drive design, the encoded optical signal having improved spectral efficiency and performances and being generated by transmitters with simplified scheme; an optical communication system comprising the transmitting apparatus, a transmission line and an apparatus to receive the optical signal.Type: GrantFiled: July 8, 2005Date of Patent: July 8, 2008Inventor: Mario Zitelli
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Patent number: 7394995Abstract: An optical receiver is disclosed comprising an erbium-doped fiber amplifier (EDFA) that is coupled to a photodiode and transimpedance amplifier without filtering output light signal in the EDFA. Optionally, a clock/data regenerator can be coupled to the electrical output of the transimpedance amplifier for compensating for noise distortion and timing jitter for affecting the control loop feeding back for adjusting the electrical current into a pump laser of an optical pre-amplifier. Furthermore, the optical receiver of the present invention can also be implemented in a transponder.Type: GrantFiled: April 1, 2004Date of Patent: July 1, 2008Assignee: Avanex CorporationInventors: Emmanuel Audic, Franck Deblock, Elisabeth Leclerc, Gilles Sorhouetgary, Alexandre Sherr, Henri Jean Egger
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Patent number: 7394989Abstract: A transmission unit of a signal transmission device includes: a transmission-side detection unit that detects image information from an inputted electrical signal; a receiving unit that receives, from a reception unit, a status signal representing an arrival status of an outputted optical signal; and a control unit that controls an electrical-optical conversion unit on the basis of the detection result of the transmission-side detection unit and the status signal of the receiving unit so that the output of the optical signal is shut down in at least one of a case where image information is not included in an electrical signal and a case where an optical signal has not arrived.Type: GrantFiled: October 13, 2004Date of Patent: July 1, 2008Assignee: Fuji Xerox Co., Ltd.Inventors: Shinobu Ozeki, Kenichi Kobayashi, Hidenori Yamada, Shinya Kyozuka, Takehiro Niitsu, Kazuhiro Suzuki, Tomo Baba, Osamu Takanashi
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Patent number: 7394986Abstract: The invention relates to wavelength-selective optical filters for allowing light of a narrow optical spectral band, centered around a wavelength (?c) to pass through them, while reflecting the wavelengths lying outside this band. According to the invention, the transfer function (T1,2(?)) of the component is defined by multiplying two transfer functions of spectrally offset Fabry-Perot filters.Type: GrantFiled: September 9, 2003Date of Patent: July 1, 2008Assignee: Atmel Grenoble S. A.Inventors: Romain Ramel, Sylvie Jarjayes, Stéphane Gluck
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Patent number: 7389047Abstract: The network comprises an optical ring link (F) and a concentrator (HUB) that sends via one end of the link “downlink” optical signals carried by respective wavelengths and receives “uplink” optical signals via the other end of the link. The link is divided into a plurality of segments (FS1-FS4) separated by access nodes (AN1-AN3) for receivers (RX) of downlink optical signals and for senders (TX) of uplink optical signals. Each access node comprises coupling means that are not wavelength-selective for coupling the segment on the upstream side of the node to the segment on the downstream side and to the receivers and to couple the senders (TX) to the segment on the downstream side. The downlink optical signals are carried by wavelengths belonging to a set of predefined wavelengths. To optimize the use of spectral resources, a rejection filter (NF) is inserted into a segment to reject a portion of the wavelengths of said set of wavelengths.Type: GrantFiled: February 22, 2005Date of Patent: June 17, 2008Assignee: AlcatelInventors: Thierry Zami, Arnaud Dupas
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Publication number: 20080138084Abstract: Provided are a method and apparatus for transmitting error information between an Ethernet network and a synchronous digital hierarchy (SDH) network. According to the present invention, when an error occurs in the Ethernet network or the SDH network, OAM information is transferred to the opposite network by using a conventional MAC control frame from a linked part of the Ethernet network and the SDH network and thus the EoS network may be efficiently operated and managed. Also, by using standardized MAC control frame, the present invention may be applied to an existing system without additionally changing hardware or defining a new OAM frame.Type: ApplicationFiled: November 29, 2007Publication date: June 12, 2008Applicant: Electronics and Telecommunications Research InstituteInventors: Ji Wook Youn, Bheom Soon Joo, Jung Sik Kim
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Publication number: 20080124091Abstract: Methods, devices and/or systems are provided for reducing signal degradations in optical transmission links. A means for ensuring a flexible manipulation for the improvement of an optical signal, especially during operation, is provided in a simple and cost-effective manner. To this end, a signal degradation in an optical transmission link is reduced by at least partially compensating a chromatic dispersion and a polarization mode dispersion of an optical signal, by adapting the temperature of a dispersion compensation device coupled into the transmission link.Type: ApplicationFiled: March 3, 2005Publication date: May 29, 2008Applicant: DEUTSCHE TELEKOM AGInventors: Sascha Vorbeck, Malte Schneiders, Ralph Leppla
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Patent number: 7379677Abstract: The wavelength converter comprises (1) an optical multiplexer for multiplexing an amplitude-modulated first light and reference light, which is continuous light having a wavelength different from the wavelength of the first light, (2) an optical fiber for propagating the multiplexed light therethrough to generate a third light by a non-linear optical phenomenon, and (3) an optical filter having a pass wavelength range set such that a pulse time width of the third light is 20% or more narrower than a pulse time width of the first light after the third light has passed through the optical filter, or (3?) an optical filter having a pass wavelength range set such that a cross point of an eye pattern of the third light is lower than a cross point of an eye pattern of the first light after the third light has passed through the optical filter.Type: GrantFiled: January 26, 2005Date of Patent: May 27, 2008Assignee: Sumitomo Electric Industries, Ltd.Inventor: Toshiaki Okuno
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Patent number: 7376358Abstract: An optical spike is generated at an arbitrarily selected location within an arbitrary optical link. The optical spike is generated by deriving a spike signal having a plurality of components, and launching the spike signal into the a transmitter end of the optical link. An initial phase relationship between the components is selected such that the involved signal components will be phase aligned at the selected location. In order to achieve this operation, the initial phase relationship between the components may be selected to offset dispersion induced phase changes between the transmitter end of the link and the selected location. One or more optical spikes can be generated at respective arbitrarily selected locations within the link, and may be used for performance monitoring, system control, or other purposes.Type: GrantFiled: October 3, 2003Date of Patent: May 20, 2008Assignee: Nortel Networks LimitedInventors: Kim Roberts, Maurice O'Sullivan
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Patent number: 7373091Abstract: The inventors propose herein a switch fabric architecture that allows broadcasting and fast channel access in the ns-range. In various embodiments of the present invention, 10 Gb/s receiver modules are based on a novel heterodyne receiver and detection technique, which is tolerant to moderate wavelength drifts of a local oscillator. A gain clipped electrical amplifier is used in the novel receiver as a rectifier for bandpass signal recovery.Type: GrantFiled: September 25, 2003Date of Patent: May 13, 2008Assignee: Lucent Technologies Inc.Inventor: Lothar Benedict Erhard Josef Moeller
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Patent number: 7373087Abstract: Systems and methods for optical communications. In one implementation, a communications device is provided. The communications device includes an Optical domain Adaptive Dispersion Compensation Module (OADCM); an Electrical domain Adaptive Distortion Compensation Module (EADCM); and a controller coupled to, and operable to selectively control, both the OADCM and the EADCM.Type: GrantFiled: February 27, 2004Date of Patent: May 13, 2008Assignee: Oplink Communications, Inc.Inventors: Feng Shi, Genzao Zhang, Xiaoli Fu, Jinghui Li, Tongqing Wang, John Ralston, Moni G. Mathew
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Patent number: 7369777Abstract: A dispersion compensator is provided that includes an input port 102 for receiving a WDM optical signal and a dispersion compensating element 110 coupled to the input port for substantially compensating the WDM optical signal for dispersion that has accumulated along an external transmission path. The dispersion compensator also includes an output port 104 for directing the dispersion compensated WDM optical signal to an external element and a dynamic power controller 106, 108, 112, 114, 116 for maintaining a total power of the WDM signal below a prescribed level prior to receipt of the WDM optical signal by the dispersion compensating element.Type: GrantFiled: November 20, 2003Date of Patent: May 6, 2008Assignee: General Instrument CorporationInventors: Chandra Sekhar Jasti, Hermann Gysel, Mani Ramachandran
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Patent number: 7366416Abstract: A hub for use in a passive optical network (PON) includes a transmission fiber on which an information-bearing optical signal is received, a double-cladded, rare-earth doped fiber located along the transmission fiber for imparting gain to the information-bearing optical signal, and a combiner having an output coupled to the transmission fiber and a plurality of inputs. The output is coupled to the transmission fiber such that optical energy at pump energy wavelengths but not signal wavelengths are communicated therebetween. At least one pump source is optically coupled to one of the inputs of the combiner for providing optical pump energy to the double-cladded, rare-earth doped fiber. An optical splitter is also provided. The optical splitter has an input coupled to the transmission fiber for receiving an amplified, information-bearing optical signal and a plurality of outputs for directing portions of the amplified, information-bearing optical signal to remote nodes in the PON.Type: GrantFiled: August 11, 2003Date of Patent: April 29, 2008Assignee: General Instrument CorporationInventors: Mani Ramachandran, Chandra Sekhar Jasti
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Patent number: 7359645Abstract: In an optical transmission system, each of optical transmission devices for transmitting wavelength-multiplexed light measures a real dispersion quantity. On the basis the real dispersion quantity measured in a measurement step and design dispersion quantities of respective transmission spans, a management control section computes compensation quantities of the respective transmission spans. The management control section notifies the compensation quantities computed in a computation step to the respective optical transmission devices. On the basis of the notified compensation quantities, the respective optical transmission devices compensate for the dispersion quantities. Thereby, optimal dispersion compensating values using a bypass design are acquired individually for optical paths included in WDM light. Dispersion is automatically, dynamically compensated, thereby inhibiting deterioration of a signal.Type: GrantFiled: September 22, 2004Date of Patent: April 15, 2008Assignee: Fujitsu LimitedInventors: Takuya Miyashita, Motoyoshi Sekiya, Ryosuke Goto
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Patent number: 7357521Abstract: A chromatic dispersion compensator whereby the amount of dispersion and the group delay time can be easily adjusted. A dispersion unit, a transmitting lens and a group delay generation unit are arranged along the optical axis of incident light. The dispersion unit separates the incident light into beams of respective different wavelengths. The transmitting lens is arranged across the optical paths of the beams of different wavelengths separated by the dispersion unit, and refracts the beams at different angles according to their respective incidence positions. The group delay generation unit is arranged across the optical paths of the beams of different wavelengths refracted by the transmitting lens, causes the beams to undergo propagation delay for periods corresponding to their respective incidence positions, and converges and emits the beams of different wavelengths. Consequently, the beams of different wavelengths are imparted group delay corresponding to the refracting angles of the transmitting lens.Type: GrantFiled: March 5, 2004Date of Patent: April 15, 2008Assignee: Fujitsu LimitedInventors: Hirotomo Izumi, Yuichi Kawahata, Yasuhiro Hirose
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Patent number: 7352970Abstract: A dispersion management system for soliton or soliton-like transmission systems comprises a length of optical fiber (L) in which a plurality of sections (I) made up of components (N,A) of opposite sign dispersions are concatenated together. The duration of the dispersion compensation phase is short in comparison with the propagation interval in the remainder of the system and that the path average dispersion is anomalous.Type: GrantFiled: May 26, 1998Date of Patent: April 1, 2008Assignee: BTG International LimitedInventors: Nicholas John Doran, Nicholas John Smith
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Patent number: 7352971Abstract: A method and system is provided for compensating polarization mode dispersion (PMD) in an optical communications system includes a controller designed to control a broadband PMD compensator to differentially delay light at each one of a plurality of selected wavelengths. At least one of the selected wavelengths lies between an adjacent pair of channel wavelengths of the optical communications system. A performance parameter value indicative of PMD is measured at each channel wavelength of the optical communications system. An estimated performance parameter value is then calculated at each selected wavelength, and an error function calculated as a function of wavelength based on the estimated performance parameter values. The broadband PMD compensator is then controlled to minimize the value of the error function.Type: GrantFiled: August 2, 2002Date of Patent: April 1, 2008Assignee: Nortel Networks LimitedInventors: Kim B. Roberts, Richard D. Habel, Maurice S. O'Sullivan
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Publication number: 20080069572Abstract: Occurrence of a reception error and breakdown of a device are prevented by absorbing an optical surge that occurs at the time of an instantaneous interruption of light. Dummy light having a wavelength at which a Raman gain is obtained when the wavelength of a main signal is assumed to be the wavelength of the pump light of a Raman amplifier is combined in a combiner with the main signal, and the combined light is introduced into an optical fiber where, by exploiting the SRS effect, the energy of the optical surge occurring in the main signal is absorbed into the dummy light, thus absorbing the optical surge.Type: ApplicationFiled: August 21, 2007Publication date: March 20, 2008Applicant: Fujitsu LimitedInventors: Hiroto Ikeda, Toshihiro Ohtani
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Patent number: 7343101Abstract: A method of reducing correlation between channels in an optical communication network. A transmission characteristic of first data on a first channel is altered to reduce correlation between the first data and second data on a second channel. The reduction in correlation reduces crosstalk. The transmission characteristic may be one or more of time delay, scrambling, inversion or modulation.Type: GrantFiled: September 27, 2002Date of Patent: March 11, 2008Assignee: Ciena CorporationInventors: Michael Y. Frankel, Mahir Nayfeh
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Patent number: 7343094Abstract: A transmission characteristics evaluation system can measure the dispersion tolerance and the insertion loss gradient tolerance at a high precision with reduced number of working steps for the measurement in evaluating the transmission characteristics of an optical module. The transmission characteristics evaluation system comprises an optical transmitting apparatus, an optical receiving apparatus for, and a pseudo transmission path apparatus interposed between the optical transmitting apparatus and the optical receiving apparatus. The pseudo transmission path apparatus has, in a pseudo manner, transmission characteristics of a transmission path to which the optical transmitting apparatus and the optical receiving apparatus are to be connected. The pseudo transmission path apparatus comprises a transmission characteristics setting section for setting transmission characteristics equivalent to the transmission characteristics that the transmission path can have, by controlling a mirror or an optical element.Type: GrantFiled: April 7, 2005Date of Patent: March 11, 2008Assignee: Fujitsu LimitedInventor: Yuichi Kawahata
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Patent number: 7340186Abstract: The discrimination phase margin monitor circuit (10) of the present invention comprises a first discrimination circuit (11 and 12) discriminating an input data signal using a clock signal extracted from the input data signal, a second discrimination circuit (13 and 14) discriminating the input data signal using a clock signal with a frequency different from that of the clock and an operation circuit (15 and 16) calculating the exclusive OR of the output signal of the first discrimination circuit and that of the second discrimination circuit and obtaining a phase margin monitor output signal by averaging the exclusive ORs.Type: GrantFiled: September 9, 2004Date of Patent: March 4, 2008Assignee: Fujitsu LimitedInventor: Naoki Kuwata
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Patent number: 7340187Abstract: In an optical signal monitoring method in wavelength multiplexing and an optical network, an area corresponding to a characteristic pattern of an eye pattern of an optical signal to be monitored, which characterizes a deterioration, is extracted from a database storing a map which associates a quality deterioration factor and deterioration amount of the optical signal with the characteristic pattern of the area of the eye pattern of the optical signal. The extracted pattern is collated with the map stored in the database to monitor the quality deterioration factor and deterioration amount of the optical signal, an occurrence time of a deterioration, duration of a deterioration, a deterioration occurrence cycle, and a deterioration duration cycle. An optical signal monitoring apparatus is also disclosed.Type: GrantFiled: December 22, 2003Date of Patent: March 4, 2008Assignee: NEC CorporationInventor: Hitoshi Takeshita
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Patent number: 7330667Abstract: Optical impairments such as dispersion and fibre nonlinearity are compensated by generating a pre-distorted electrical signal at the transmitter. This signal is modulated onto a carrier signal, so that it is upconverted in frequency. This up converted signal is then used to modulate an optical source. Generally the optical signal will have two sidebands, one of which has the correctly pre-distorted information and the other which is unwanted. Information in the unwanted optical sideband is either filtered optically or electrically. In the preferred embodiments, the transmitter uses a tunable semiconductor laser with an integrated electroabsorption modulator to modulate the light. The preferred receiver is a coherent receiver with a tunable local oscillator laser. The receiver uses an electrical filter to remove the information in the unwanted sideband.Type: GrantFiled: December 20, 2005Date of Patent: February 12, 2008Assignee: Nortel Networks LimitedInventor: Julian Fells
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Patent number: 7327954Abstract: A method for optical supervisory signaling includes determining a wavelength channel status (WCS) value, a wavelength channel failure (WCF) value, and a wavelength channel lit (WCL) value for each one of multiple data channels services by an optical communication node. The method further includes communicating the values to a second optical communication node.Type: GrantFiled: May 31, 2002Date of Patent: February 5, 2008Assignee: Fujitsu LimitedInventors: Paparao Palacharla, Hok Yong Pua, Emir Catovic, Harbhajan Vridee
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Patent number: 7324758Abstract: An optical dispersion monitoring apparatus and an optical dispersion monitoring method are capable of monitoring dispersion accurately with a simple construction in an optical transmission system using the same. To this end, the optical dispersion monitoring apparatus includes a light receiving section converting an input optical signal into an electrical signal, a signal transition position detecting section detecting the voltage level of a waveform of the output signal from the light receiving section, at a crossing point of a rising edge and a falling edge, and a cumulative dispersion information extracting section comparing the voltage level at the crossing point with a reference signal to extracts cumulative dispersion information.Type: GrantFiled: November 20, 2003Date of Patent: January 29, 2008Assignee: Fujitsu LimitedInventors: Masazumi Marutani, Takuji Yamamoto
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Patent number: 7321733Abstract: An optical transmission system including an optical transmitting device and an optical receiving device. The optical transmitting device includes a data signal splitting section for splitting data signal information into at least two parts and generating at least two electrical signals having different center frequencies and bands, a frequency multiplexing section for performing frequency multiplexing for the at least two electrical signals, and an electrical-to-optical conversion section for converting the frequency-multiplexed signal to an optical signal and sending it to an optical transmission path. The optical receiving device includes an optical-to-electrical conversion section for converting the optical signal to a frequency-multiplexed signal, a band demultiplexing section for demultiplexing the frequency-multiplexed signal to obtain at least two electrical signals, and a data signal recovering section for recovering the data signal based on the at least two demultiplexed electrical signals.Type: GrantFiled: June 4, 2004Date of Patent: January 22, 2008Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Tsuyoshi Ikushima, Masaru Fuse
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Patent number: 7319817Abstract: A system and method for a transparent WDM metro ring architecture in which optics enables simultaneous provisioning of dedicated wavelengths for high-end user terminals, while low-end user terminals share wavelengths on “virtual rings”. All wavelengths are sourced by the network and remotely modulated at customer “End Stations” by low cost semiconductor optical amplifiers, which also serve as transmission amplifiers. The transparent WDM metro ring architecture permits the communication of information and comprises a fiber optical feeder ring, at least one fiber optical distribution ring, a network node (NN), at least one access node (AN) said network node and said at least one access node connected via said fiber optical feeder ring and at least one end station (ES) connected via said fiber optical distribution ring to said at least one access node, wherein said user is attached to said at least one end station.Type: GrantFiled: September 28, 2005Date of Patent: January 15, 2008Assignee: AT&T Corp.Inventors: Nicholas J. Frigo, Patrick P. Iannone, Kenneth C. Reichmann, Aleksandra Smiljanic
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Patent number: 7317574Abstract: Apparatus and methods for high fidelity quantum communication over long communication channels even in the presence of significant loss in the channels are disclosed. The invention employs laser manipulation of quantum correlated atomic ensembles using linear optic components, optical sources of low intensity pulses, beam splitters, and single-photon detectors requiring only moderate efficiencies. The invention provides fault-tolerant entanglement generation and connection, using a sequence of steps that each provide built-in entanglement purification and that are each resilient to the realistic noise. The invention relies upon collective excitation in atomic ensembles rather than single particle excitations in atomic ensembles so that communication efficiency scales polynomially with the total length of a communication channel.Type: GrantFiled: May 20, 2002Date of Patent: January 8, 2008Assignee: Magiq Technologies, Inc.Inventors: Peter Zoller, Luming Duan, Ignacio Cirac, Mikhail D. Lukin
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Publication number: 20070297807Abstract: The present invention is directed towards systems and methods that include an optical polarization scrambler or depolarizer after the optical transmitter. In this manner, the optical signal is depolarized. Accordingly, the noise peaks that were translated from Guided Acoustic-Wave Brillouin Scattering (GAWBS) by the devices with polarization dependent loss or gain is mitigated in order to have little effect on the quality of the RF signal carried by lightwave.Type: ApplicationFiled: June 27, 2006Publication date: December 27, 2007Inventors: Yihong Chen, Fernando X. Villarruel, Daniel M. Ott
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Patent number: 7302189Abstract: It is an object of the present invention to provide an optical component provided with a demultiplexing function capable of reducing an insertion loss and downsizing, and a wavelength dispersion compensator using such an optical component.Type: GrantFiled: March 2, 2004Date of Patent: November 27, 2007Assignee: Fujitsu LimitedInventor: Yuichi Kawahata
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Patent number: 7302190Abstract: In an optical transmitting or receiving apparatus, a plurality of replaceable electro-optic converters or a plurality of replaceable opto-electric converters are provided in correspondence with optical transmission lines.Type: GrantFiled: May 29, 2002Date of Patent: November 27, 2007Assignee: Nec CorporationInventors: Masataka Goto, Kenji Sato
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Patent number: 7295774Abstract: A method for estimating at least one optical link parameter using a Viterbi equalizer (1) generating averaged values (M) of signal amplitudes of a distorted optical signal transmitted through an optical link (2) for a set of decided bit patterns (a, b, c, d, . . . ), the method comprising the following steps: forming a first parameter set (S) characteristic of a distorted signal sequence using the averaged values (M(a), M(b), M(d), M(g)) for a given sequence (abdg) of bit patterns (a, b, c, d, . . . ), comparing the first parameter set (S) to a plurality of reference parameter sets (R1, R2, . . . ) characteristic for reference signal sequences of the same sequence (abdg) of bit patterns (a, b, c, d, . . . ), each of the reference parameter sets (R1, R2, . . .Type: GrantFiled: December 14, 2005Date of Patent: November 13, 2007Assignee: AlcatelInventor: Henning Bülow
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Patent number: 7295781Abstract: Methods and systems for PMD compensation in an optical communication system are implemented by transmitting multiple optical signals through a common optical conduit to an optical compensator that adjustably rotates the polarization states of the multiple optical signals and transmits the rotated optical signals to an optical receiver. The receiver, upon sensing an excessive error condition, commands the optical compensator to change the polarization state of rotation, which changes the PMD profile of the received optical signals.Type: GrantFiled: February 28, 2007Date of Patent: November 13, 2007Assignee: AT&T Corp.Inventors: Michael Herbert Eiselt, Jonathan A. Nagel
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Patent number: 7292785Abstract: An optical transmission system accomplishes optical transmission over a long distance by combining a multiplexing line terminal with optical amplifiers, linear repeaters, and regenerators with optical amplifiers combined together. The system also accomplishes the optical transmission over a short distance by directly connecting the linear terminals therebetween, with an electric-to-optic converter replaced by an electric-to-optic converter having a semiconductor amplifier, with an optic-toelectric converter by an optic-to-electric converter having an avalanche photodiode as light receiver, and with no use of any optical booster amplifier and optical preamplifier in multiplexing line terminal. With these, the optical transmission system can be easily constructed depending on the transmission distance required.Type: GrantFiled: November 7, 2006Date of Patent: November 6, 2007Assignee: Hitachi, Ltd.Inventors: Keiji Tomooka, Naohiro Sakakida, Shin Nishimura, Yoshihiro Ashi, Hironari Matsuda, Satoshi Aoki, Yukio Nakano, Masahiro Takatori, Toru Kazawa, Shinya Sasaki, Ryoji Takeyari, Hiroyuki Nakano