Patents Examined by Mina M Shalaby
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Patent number: 11483072Abstract: An apparatus and system having an optical integrated circuit (referred to herein as an OMTP) configured for power on during discovery and optically communicating with the OMTP reader for the purpose of extracting data.Type: GrantFiled: September 3, 2021Date of Patent: October 25, 2022Assignee: P-CHIP IP HOLDINGS INC.Inventors: Wlodek Mandecki, Efrain Rodriguez, Robert Patti, Ioannis Kymissis
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Patent number: 11476978Abstract: A method for the redundant transmission of data by means of light-based communication may include a data stream to be transmitted that is converted into symbols. This data stream is converted from bipolar symbols into multiple partial data streams having e.g. unipolar-positive symbols. The partial data streams are converted into multiple semi-redundant signals that are then transmitted to the receiver via multiple light-based channels. In the receiver, the received signals are converted back again analogously to when they were sent, in order to obtain the original data stream again.Type: GrantFiled: September 18, 2018Date of Patent: October 18, 2022Assignee: OSRAM GmbHInventor: Gerhard Maierbacher
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Patent number: 11463174Abstract: RF processing systems and methods. An RF processing system includes an optical storage module, a processing module, and an electro-optical modulation module. The electro-optical modulation module is configured to receive the first signal from the optical storage module, receive the modulation signal from the processing module, and electro-optically modulate the first signal based on the modulation signal.Type: GrantFiled: April 14, 2020Date of Patent: October 4, 2022Assignee: MagiQ Technologies, Inc.Inventors: Michael LaGasse, Alan Craig Beal, Mark David Lucas
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Patent number: 11431431Abstract: Provided is a wavelength path communication node device with no collision of wavelengths and routes, capable of outputting arbitrary wavelengths, and capable of outputting them to arbitrary routes. An add/drop multiplexer (11) includes a communication unit (101) that communicates an optical signal with at least one client device and at least one network and a control unit (102) that indicates a transfer destination of the optical signal according to an attribute of the received optical signal to the communication unit (101). The control unit (102) indicates an attenuation amount of the optical signal to the communication unit (101) for each connected device. When a connected device is changed, the control unit (102) instructs the communication unit (101) to change the attenuation amount. The communication unit (101) attenuates the optical signal with the attenuation amount indicated by the control unit (102) and transfers the attenuated optical signal to a transfer destination.Type: GrantFiled: June 23, 2021Date of Patent: August 30, 2022Assignee: NEC CORPORATIONInventor: Yurie Matsuyama
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Patent number: 11405104Abstract: Systems and methods for longitudinal performance monitoring of an optical communication line communicably connecting a transmitting device to a receiving device for transmitting a signal therebetween. The method comprises receiving the signal at the receiving device, the signal having been affected by propagative impairments accumulated along the optical communication line, generating, at the receiving device, a linear signal based on the received signal, generating, based on the linear signal, a plurality of signal templates, and determining correlation values between the received signal and each signal template of the plurality of signal templates, each correlation value being indicative of a local longitudinal performance of the optical communication line.Type: GrantFiled: September 16, 2021Date of Patent: August 2, 2022Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Choloong Hahn, Zhiping Jiang
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Patent number: 11404596Abstract: System and methods implemented in a coherent receiver having a pair of Avalanche Photodiodes (APD) include adjusting one or more of a reverse bias voltage (VAPD) on a P-path (VAPDP) and on an N-path (VAPDN) responsive to an output (PIN,CM) that indicates electrical power of an AC common-mode input signal; adjusting a Transimpedance Amplifier (TIA) common-mode AC response, AdjCM_AC_Response, responsive to an output (POUT,CM) that indicates electrical power of an AC common-mode output signal; and/or adjusting one or more of VAPDP and VAPDN responsive to received signal Signal-to-Noise Ratio (SNR).Type: GrantFiled: April 20, 2021Date of Patent: August 2, 2022Assignee: Ciena CorporationInventors: Tom Luk, Michael Vitic, Christopher Edgar Falt
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Patent number: 11398869Abstract: A device for coherently detecting data in an optical signal, called a useful signal, received over a first single-mode optical fibre. The device includes: a second single-mode optical fibre that receives an oscillation optical signal; a polarization-managing device that receives as input either, in a first case, the oscillation optical signal, or, in a second case, the useful signal, and that delivers as output two separate signals, over two single-mode optical guides. The coherently detecting device is configured so that a set of the three signals, which consists of the two separate signals and of either, in the first case, the useful signal, or, in the second case, the oscillation signal, is presented to a single photodiode.Type: GrantFiled: March 2, 2020Date of Patent: July 26, 2022Assignee: ORANGEInventor: Philippe Chanclou
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Patent number: 11368228Abstract: Optical network systems are disclosed, including systems having transmitters with a digital signal processor comprising forward error correction circuitry that provides encoded first electrical signals based on input data; and power adjusting circuitry that receives second electrical signals indicative of the first electrical signals, the power adjusting circuitry supplying third electrical signals, wherein each of the third electrical signals is indicative of an optical power level of a corresponding to one of a plurality of optical subcarriers output from an optical transmitter.Type: GrantFiled: April 15, 2019Date of Patent: June 21, 2022Assignee: Infinera CorporationInventors: Steven Joseph Hand, Ahmed Awadala, Luis A. Perez, Vincent G. Dominic, Kuang-Tsan Wu
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Patent number: 11349565Abstract: This application provides a method and an apparatus for establishing an optical cable connection.Type: GrantFiled: June 28, 2021Date of Patent: May 31, 2022Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Biao Qi, Wei Xiong, Qi Zhang
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Patent number: 11336367Abstract: A method performed at a transmitter comprises generating a set of digital signals representing a constellation point, each dimension of the point being uniquely represented by m bits, where m?{1, 2, 3}; applying a linear polyphase filter to a digital signal of the set, the linear polyphase filter pre-compensating for a linear transfer function of an electro-optic path of the digital signal and generating a first filtered signal having a roll-off factor ?, where ? is a positive real number satisfying ??1; applying a nonlinear polyphase filter to the digital signal, in parallel to applying the linear polyphase filter to the digital signal, the nonlinear polyphase filter generating a second filtered signal representing nonlinear noise in the electro-optic path; calculating a pre-compensated digital signal from a difference between the first and second filtered signals; and transmitting an optical signal based on the pre-compensated digital signal.Type: GrantFiled: August 30, 2021Date of Patent: May 17, 2022Assignee: IENA CORPORATIONInventors: Shahab Oveis Gharan, James St. Leger Harley, Kendal Zimmer, Christian Bourget
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Patent number: 11323199Abstract: This application provides a sending device, a receiving device, an optical transmission system, and an optical power control method. The sending device includes a multiplexing unit and an optical power adjustment unit. The multiplexing unit is configured to send at least two communication optical waves to a fiber channel, and is further configured to send or receive at least two detection optical waves through the fiber channel. The optical power adjustment unit is configured to: obtain a power control instruction, where the power control instruction is generated according to power change information between the at least two detection optical waves. The optical power adjustment unit is further configured to perform optical power amplification and/or attenuation on at least one communication optical wave in the at least two communication optical waves according to the power control instruction.Type: GrantFiled: October 1, 2019Date of Patent: May 3, 2022Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Binlin Deng, Yang Li, Hui Yan, Yuanwu Wang
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Patent number: 11323181Abstract: A bidirectional transceiver includes a transmitter and a receiver that respectively transmits a local signal to and receives remote signal from a common bidirectional communication channel, thus the bidirectional channel signal is the superimposition of the local and remote signals. The bidirectional transceiver also includes a transmit canceller that substantially removes the local transmitted signal from the superimposed signals on the bidirectional channel before the local receiver. The remote signal is transmitted by a remote transceiver over the bidirectional channel. A sampling phase is set, based on timing information in the received remote signal, and the received signal is sampled. Timing relation of transitions in the local transmit signal relative to the receiver sampling phase is set such that transmit signal cancellation is optimum at receiver sampling phase, by changing the delay applied to the local transmit signal.Type: GrantFiled: July 2, 2019Date of Patent: May 3, 2022Assignee: Radin GlobalInventor: Shahab Ardalan
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Patent number: 11323182Abstract: A transmitting and receiving device includes a controller, a driver, a specific pattern generator, a transmitting signal detector, an amplifier, a differential amplifier, an average current detector, and a received signal detector. In a non-signal period, the controller causes a current signal to be input from the driver to a laser diode and causes an optical signal to be output from the laser diode. When an optical signal of a specific pattern output from the other-side laser diode reaches a photodiode over a period of length that depends on an average value of a current signal output from the other-side photodiode that receives the optical signal, the controller adjusts a magnitude of the current signal input from the driver to the laser diode based on the length of the period of the optical signal of the specific pattern.Type: GrantFiled: June 28, 2021Date of Patent: May 3, 2022Assignee: THINE ELECTRONICS, INC.Inventor: Yusuke Fujita
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Patent number: 11310572Abstract: A terminal node, an optical network and/or a method are described in which a first processor of a first optical protection switching module having a first optical switch, and a second processor of a second optical protection switching module having a second optical switch coordinate switching of the first optical switch and the second optical switch upon detection of a first failure by the first processor, or the detection of a second failure by the second processor. The first processor monitors optical signals received by a first line port to determine a first failure in a first working path at a first layer (e.g., physical layer) within an optical communication model. The second processor monitors the optical signals received by another line port to determine a second failure in the first working path at a second layer (e.g., optical layer) within the optical communication model.Type: GrantFiled: December 18, 2020Date of Patent: April 19, 2022Assignee: Infinera CorporationInventors: Kapil Juneja, Amit Satbhaiya, Rajan Rao
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Patent number: 11296810Abstract: An optical circuit includes: a multicast-and-select (MCS) switch and multiple optical selective devices coupled to output ports of the MCS switch. The selective devices may select a single optical channel by blocking some of wavelengths of light passing therethrough and passing at least one other wavelength. The selective devices may be wave blockers or tunable optical filters. The optical circuit further includes an optical amplifying array, wherein each amplifier has an input port optically coupled to one of the selective devices. At least some of the amplifiers have pump light ports for receiving at least a portion of the pump light from one or more laser pumps or from another of the optical amplifiers, wherein the pumps are capable of providing pump light sufficient to fully saturate all of the rare earth doped optical fibers in the array.Type: GrantFiled: December 27, 2017Date of Patent: April 5, 2022Assignee: Accelink Technologies Co., Ltd.Inventors: Alan Solheim, Qinlian Bu, Weiqing Zhang, Chengpeng Fu, Lijie Qiao
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Patent number: 11297512Abstract: A dark fiber design tool for hardware, circuits, and paths is provided. A method can include generating, by a system comprising a processor, a data record that identifies respective equipment of a group of dark fiber equipment that have been assigned for a development of new dark fiber network infrastructure usable via a communication network; generating, by the system, a circuit plan representing optical connections between the respective ones of the group of dark fiber equipment as determined based on a first constraint defined by rules; and associating, by the system, respective optical wavelength paths with respective connections of the optical connections of the circuit plan based on a second constraint defined by the rules.Type: GrantFiled: November 25, 2020Date of Patent: April 5, 2022Assignee: AT&T Intellectual Property I, L.P.Inventors: Jeffrey Alan Benson, Terri Jones, Brian Maddux, David Hill, Dennis Roofe, Veronica Gensamer
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Patent number: 11290184Abstract: An optical fiber transmission system and method for using the system are provided. The system may include a span of transmission fiber for transmitting light signals through the optical fiber transmission system. The system may include a dispersion compensating module coupled to the span of transmission fiber. The system may include a switchable module including a set of selectable light signal paths, the set of selectable light signal paths including at least one path through a dispersion compensating element. The system may include a processor coupled to the switchable module for selectively monitoring the set of selectable light signal paths, where the processor is further configured to derive a metric based on the set of selectable light signal paths for controlling the dispersion compensating module.Type: GrantFiled: March 1, 2019Date of Patent: March 29, 2022Assignee: Molex, LLCInventors: Bichang Huang, Chao Shi, Lifu Gong
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Patent number: 11243356Abstract: A transmitter (1) is configured to transmit an optical signal, the transmitter comprising an optical dispersion compensator (10) configured to compensate for chromatic dispersion of the optical signal. The optical dispersion compensator comprises a plurality of delay elements (20; 40). The plurality of delay elements (20; 40) have a combined response providing a delay to the transmitted optical signal which varies with frequency.Type: GrantFiled: July 21, 2017Date of Patent: February 8, 2022Inventors: Fabio Cavaliere, Marco Romagnoli, Vito Sorianello
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Patent number: 11245472Abstract: A communication network includes an optical hub having a first coherent optics transceiver, a fiber node having a second coherent optics transceiver, an optical transport medium operably coupling the first coherent optics transceiver to the second coherent optics transceiver, a first optical circulator disposed at the optical hub, and a second optical circulator disposed at the fiber node. The first coherent optics transceiver is configured to (i) transmit a downstream optical signal at a first wavelength, and (ii) receive an upstream optical signal at the first wavelength. The second coherent optics transceiver is configured to (i) receive the downstream optical signal from the first coherent optics transceiver at the first wavelength, and (ii) transmit the upstream optical signal at the first wavelength. The first and second optical circulators are configured to separate the downstream optical signal from the upstream optical signal.Type: GrantFiled: December 7, 2020Date of Patent: February 8, 2022Assignee: Cable Television Laboratories, Inc.Inventors: Zhensheng Jia, Luis Alberto Campos, Jing Wang
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Patent number: 11239919Abstract: A method, system and apparatus for optimizing parameters between two optical coherent transceivers connected via an optical link, including determining performance of a second optical receiver; wherein the second optical transceiver uses a set of parameters; and inputting information into a side channel communication between a first optical transceiver and the second optical transceiver to update the set of parameters for the second transceiver.Type: GrantFiled: October 31, 2019Date of Patent: February 1, 2022Assignee: Acacia Communications, Inc.Inventors: Jonas Geyer, Timo Pfau