Patents Examined by Amritbir K Sandhu
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Patent number: 11539432Abstract: A skew compensation system for a coherent optical communication network includes a transmitter modulator having a first driver input for receiving a first signal from a first channel, a second driver input for receiving a second signal from a second channel, a source input for receiving a continuous wave source signal, and a modulation output in communication with an optical transport medium of the network. The system further includes a tunable delay line disposed between the second channel and the second driver input for inserting a pre-determined training sequence onto the second signal prior to the second driver input, and a processor for determining a skew amount between the second signal at the second driver input and the first signal at the first driver input, calculating a pre-compensation value corresponding to the skew amount, and reducing the skew amount at the modulation output according to the pre-compensation value.Type: GrantFiled: August 30, 2021Date of Patent: December 27, 2022Assignee: Cable Television Laboratories, Inc.Inventors: Mu Xu, Luis Alberto Campos, Haipeng Zhang, Junwen Zhang, Zhensheng Jia
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Patent number: 11533107Abstract: Provided is a base station signal monitoring system including: a plurality of optical transmission devices configured to transmit a base station signal; a measuring device configured to measure the base station signal according to a preset method; and a switch device, which is connected to the plurality of optical transmission devices and the measuring device, configured to switch connections between a plurality of input ports and a plurality of output ports so that the base station signal is transmitted from one of the plurality of optical transmission devices to the other one of the plurality of optical transmission devices or the measuring device.Type: GrantFiled: November 9, 2020Date of Patent: December 20, 2022Assignee: SOLiD, INC.Inventor: Bum Soo Park
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Patent number: 11526035Abstract: A polarization scrambler using a retardance element (RE) is disclosed. The polarization scrambler may include an optical fiber input to transmit an optical signal, and a beam expander to receive and expand the optical signal to create an expanded optical signal. The polarization scrambler may include a retardance element (RE) to cause a polarization scrambling effect on the expanded optical signal and to create a scrambled expanded optical signal. The polarization scrambler may include a beam reducer to receive and reduce the scrambled expanded optical signal to create a scrambled optical signal. The polarization scrambler may include an optical fiber output to receive scrambled optical signal. The optical fiber output may transmit the scrambled optical signal to one or more downstream optical components.Type: GrantFiled: June 10, 2019Date of Patent: December 13, 2022Assignee: VIAVI SOLUTIONS INC.Inventors: Joshua Philipson, Christopher Russell Wagner, Luis Andre Neves Paiva Fernandes
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Patent number: 11523730Abstract: A wireless power transmission system for a robotic surgical system includes features for optical data transmission. A first component of the surgical system includes a control element, a power transmission element and an optical data transmission element; and a second component of the surgical system including a wireless power receiving element and an optical data receiving element, the second component is removably mountable to the first component. In some embodiments, a barrier such as a surgical drape and/or hermetic enclosure is positioned between the first and second components. In one example, of the components is a robotic manipulator arm and another is a powered instrument removably mountable to the manipulator arm.Type: GrantFiled: January 2, 2020Date of Patent: December 13, 2022Assignee: Asensus Surgical US, Inc.Inventors: Randall L. Luck, Kevin Andrew Hufford
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Patent number: 11522689Abstract: The present invention relates to the field of quantum communication, especially a quantum key distribution device that can be configured with multiple protocols. It uses the simplified Faraday-Michelson interference ring in combination with the intensity modulator to perform timestamp encoding in a chopping manner. The phase modulation is completed with a Sagnac ring device composed of a single-polarization phase modulator, a polarization beam splitter and a Faraday rotator, so as to achieve the purpose of composite encoding and decoding, thus realizing a quantum key distribution device which can be configured with multiple protocols and multiple decoy state schemes. This device can be compatible with multiple protocols including BB84 protocol, the reference frame-independent protocol, the six-state protocol and SARG protocol and is characterized with polarization-independent phase modulation and low system complexity.Type: GrantFiled: January 26, 2022Date of Patent: December 6, 2022Assignee: NANJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONSInventors: Qin Wang, Qingqing Jiang, Huajian Ding, Chunhui Zhang, Jian Li
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Patent number: 11522618Abstract: Disclosed are a quantum information transmitter, a quantum communication system including the same, and an operating method of the quantum information transmitter. The quantum information transmitter includes a light source driver, a light source, and a light modulator. The light source driver generates a first light source driving signal having a first level and a second light source driving signal having a second level. The light source generates a first light signal having a first average number of photons in response to the first light source driving signal, and generates a second light signal having a second average number of photons in response to the second light source driving signal. The optical modulator modulates the first light signal to generate a target signal, and modulates the second light signal to generate a decoy signal.Type: GrantFiled: March 16, 2021Date of Patent: December 6, 2022Assignee: ELECTRONICS AND TELECOMMUNICATIONS RESEARCH INSTITUTEInventors: Kyongchun Lim, Chun Ju Youn, Young-Ho Ko, Kap Joong Kim, Minchul Kim, Byung-seok Choi, Joong-Seon Choe
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Patent number: 11513420Abstract: A radiation source for emitting terahertz radiation (6) is specified, comprising at least two laser light sources emitting laser radiation (11, 12) of different frequencies, and a photomixer (5) comprising a photoconductive semiconductor material (51) and an antenna structure (52), the photomixer (5) being configured to emit the laser radiation (11, 12) of the laser light sources (1, 2) and emitting terahertz radiation (6) with at least one beat frequency of the laser light sources, and wherein the at least two laser light sources are surface-emitting semiconductor lasers (1, 2) which are arranged in a one-dimensional or two-dimensional array on a common carrier (10).Type: GrantFiled: December 5, 2018Date of Patent: November 29, 2022Assignee: OSRAM OLED GMBHInventors: Hubert Halbritter, Roland Heinrich Enzmann
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Patent number: 11509400Abstract: An image transmission system is disclosed. The image transmission system includes at least one image capturing device, at least one conversion device, at least one image processor, and at least one flexible printed circuit (FPC). The at least one FPC includes at least one conductive layer and at least one optical waveguide layer. The at least one image capturing device is configured to capture at least one data. The at least one conversion device is configured to perform a conversion between the at least one data and an optical signal. The at least one image processor is configured to obtain the at least one data according to the optical signal, and processes the data. The at least one optical waveguide layer is configured to transmit the optical signal.Type: GrantFiled: November 13, 2020Date of Patent: November 22, 2022Assignee: AuthenX Inc.Inventors: Po-Kuan Shen, Chao-Chieh Hsu, Chun-Chiang Yen, Chiu-Lin Yu, Kai-Lun Han, Sheng-Fu Lin, Jenq-Yang Chang, Mao-Jen Wu
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Patent number: 11502758Abstract: A communications system may include a transmitter node, a receiver node, and an optical communications channel coupling the transmitter node and receiver node. The transmitter node may include a pulse transmitter and a pulse divider downstream therefrom. The receiver node may include a pulse recombiner and a pulse receiver downstream therefrom.Type: GrantFiled: February 19, 2021Date of Patent: November 15, 2022Assignee: EAGLE TECHNOLOGY, LLCInventors: Victor G. Bucklew, Fraser R. Dalgleish, Cypryan T. Klish, James A. Nagel
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Patent number: 11489593Abstract: An optical and electrical hybrid beamforming transmitter, receiver, and signal processing method are provided. The transmitter includes, but is not limited to, two photoelectric converters, two adjusting circuits, and an antenna array. The photoelectric converter converts an optical signal into an initial electric signal, respectively. The adjusting circuit is coupled to the photoelectric converter, and are adapted for delaying the initial electric signal according to an expected beam pattern formed by the antenna array, respectively, to output an adjusted electric signal. The antenna array includes two antennas that are coupled to the adjusting circuit. The antenna radiates electromagnetic wave according to the adjusted electric signal. Accordingly, a phase of the signal may be adjusted, and the number of the elements may be reduced.Type: GrantFiled: February 22, 2021Date of Patent: November 1, 2022Assignee: TMY Technology Inc.Inventors: Su-Wei Chang, Han-Ti Chuang, Wen-Tsai Tsai, Tzu-Chieh Hung, Yang Tai, Shao-Chun Hsu, Guo-Zhen Su
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Patent number: 11480665Abstract: A stabilized LiDAR system and a method for stabilization. The LiDAR system includes a laser, the laser being designed for emission of monochromatic LiDAR radiation within a wavelength working range; a thermocouple element configured to set the working temperature of the laser; a means for evaluation, designed to determine, from the radiation emitted by the laser, a measure for the deviation from an actual wavelength of the radiation to a setpoint wavelength within the wavelength working range of the laser; and a means for regulation, designed to control the thermocouple element on the basis of the measure of deviation determined by the means for evaluation, in such a way that the working temperature of the laser is set to a value, at which the emitted monochromatic LiDAR radiation corresponds to the setpoint radiation.Type: GrantFiled: June 18, 2019Date of Patent: October 25, 2022Assignee: Robert Bosch GmbHInventors: Mirko Hattass, Timo Knecht
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Patent number: 11483636Abstract: Digital information can be carried on the fiber leg of an access network using binary modulation. Binary modulated data received at an O/E node can then be modulated onto an analog waveform using quadrature amplitude modulation or some other technique for modulating an analog waveform and transmitted over, for example, the coaxial leg of the network. The O/E node may also receive an analog signal, over the coaxial leg, modulated to carry upstream data from subscriber devices. The O/E node may demodulate the upstream signal to recover the upstream data and forward that upstream data over the fiber leg using a binary modulated optical signal.Type: GrantFiled: August 12, 2020Date of Patent: October 25, 2022Assignee: Comcast Cable Communications, LLCInventors: Jorge Daniel Salinger, David Urban
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Patent number: 11460634Abstract: A method for making a pair of photodiodes to detect low-power optical signal includes providing a waveguide including one or more branches in a silicon photonics substrate to deliver an input optical signal to the silicon photonics integrated circuit; forming a pair of nearly redundant photodiodes in silicon photonics platform in the silicon photonics substrate. coupling a first one of the pair of nearly redundant photodiodes optically to each of the one or more branches for receiving the input optical signal combined from all of the one or more branches; coupling a second one of the pair of nearly redundant photodiodes electrically in series to the first one of the pair of nearly redundant photodiodes; and drawing a current from the first one of the pair of nearly redundant photodiodes under a reversed bias voltage applied to the pair of nearly redundant photodiodes.Type: GrantFiled: September 4, 2020Date of Patent: October 4, 2022Assignee: Marvell Asia Pte Ltd.Inventors: Jie Lin, Masaki Kato, Bruno Tourette, Brian Taylor
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Patent number: 11451307Abstract: An optical system, comprising: an emitter configured to output a first optical signal along a first optical path to an interference unit and to output a second optical signal along a second optical path to the interference unit, the interference unit being configured to interfere the first and second optical signals, wherein the coherence length of the optical signal is longer than the path difference between first and second optical paths, and there is a path difference between the first and second paths of at least 1 km.Type: GrantFiled: August 16, 2021Date of Patent: September 20, 2022Assignee: Kabushiki Kaisha ToshibaInventors: Mirko Pittaluga, Zhiliang Yuan, Andrew James Shields
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Patent number: 11451305Abstract: Upon receipt of a coherent optical signal that includes a training signal generated using a code sequence constituted by multi-value phase modulation symbols, in which a deviation angle of a vector average of a one-symbol delay differential component of a signal generated on the basis of the code sequence has a prescribed angle and a modulation phase difference between adjacent symbols has a fixed, repeated pattern, a reception training signal corresponding to a training code sequence for frequency offset estimation is detected within a reception signal acquired by converting the received coherent optical signal into an electric signal, a plurality of delay differential components are calculated on the basis of the detected reception training signal and at least two delay signals of the reception training signal, each delay signal having a different number of delay symbols, and an averaged frequency offset amount is calculated using the calculated plurality of delay differential components.Type: GrantFiled: August 30, 2019Date of Patent: September 20, 2022Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Ryo Igarashi, Masamichi Fujiwara, Takuya Kanai
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Patent number: 11451294Abstract: A transport network, a node, and a method are disclosed. The transport network, the node, and the method detect a failure of a super channel originating from a sliceable light source that is routed through the transport network, by detecting an optical loss of signal by an optical power monitoring device, in presence or absence of an optical loss of signal of the complete band by at least one photo detector. This information is analyzed with a fault detection algorithm using a patch cable network configuration to determine a fault indication for a failure within the first node. The fault signal indicative of the fault indication is then passed to another node on the first path.Type: GrantFiled: October 4, 2018Date of Patent: September 20, 2022Assignee: Infinera CorporationInventors: Amit Satbhaiya, Nikhil Kumar Satyarthi, Sanjeev Ramachandran, Rajan Rao, Baranidhar Ramanathan
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Patent number: 11444699Abstract: There are provided an optical transmission apparatus that subjects a transmission signal including a plurality of sequences to Hadamard transform to obtain a signal in which a predetermined delay is added to one of the sequences, optically modulates the obtained signal, and transmits the modulated signal, and an optical reception apparatus that demodulates a reception signal received from the optical transmission apparatus by subjecting the reception signal to adaptive equalization processing with a predetermined number of taps.Type: GrantFiled: January 15, 2020Date of Patent: September 13, 2022Assignee: NIPPON TELEGRAPH AND TELEPHONE CORPORATIONInventors: Akira Masuda, Fukutaro Hamaoka, Shuto Yamamoto, Seiji Okamoto, Kengo Horikoshi, Masanori Nakamura, Asuka Matsushita, Yoshiaki Kisaka
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Patent number: 11444691Abstract: An optical communications system including two communications terminals in communication with each other using optical signals having the same wavelength. Both terminals include a half-wave plate polarizer for rotating linearly polarized optical signals and a quarter-wave plate polarizer for circularly polarizing the optical signals. The quarter-wave plate polarizers are oriented 90° relative to each other so that circularly polarized optical signals sent from one terminal to the other terminal are linearly polarized 90° relative to a transmission polarization orientation to be separable from the transmitted optical signals by a beam splitter.Type: GrantFiled: March 12, 2021Date of Patent: September 13, 2022Assignee: NORTHROP GRUMMAN SYSTEMS CORPORATIONInventors: Daniel W. Lam, James M. Zamel, Arthur B. O'Connor, Donald G. Heflinger
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Patent number: 11444758Abstract: A key generation method includes modulating a first key to a first light source signal, to obtain a modulated optical signal, splitting the modulated optical signal, to obtain a first sub modulated optical signal and a second sub modulated optical signal, attenuating the first sub modulated optical signal such that a quantity of photons included in each period of the first sub modulated optical signal is less than a preset value, and sending an attenuated first sub modulated optical signal to a receive-end device, and obtaining a second key carried in the second sub modulated optical signal, and storing the second key.Type: GrantFiled: May 7, 2020Date of Patent: September 13, 2022Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Zhengyu Li, Changzheng Su, Yang Zou, Yongjing Cai
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Patent number: 11437786Abstract: Embodiments of the invention describe polarization insensitive optical devices utilizing polarization sensitive components. Light comprising at least one polarization state is received, and embodiments of the invention select a first optical path for light comprising a first polarization state or a second optical path for light comprising a second polarization state orthogonal to the first polarization state. The optical paths include components to at least amplify and/or modulate light comprising the first polarization state; the second optical path includes a polarization rotator to rotate light comprising the second polarization state to the first polarization state.Type: GrantFiled: July 28, 2020Date of Patent: September 6, 2022Assignee: OpenLight Photonics, Inc.Inventors: Gregory Alan Fish, Erik Johan Norberg, John M. Garcia, Robert Silvio Guzzon, Daniel Knight Sparacin