Patents Examined by Violeta A Prieto
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Patent number: 11293746Abstract: The present disclosure provides a method of evaluating a mechanical property of a material using a device for evaluating the mechanical property of the material. The device comprises a sensing layer having a thickness, a sensing surface and an opposite surface. The sensing layer is deformable such that, when the sensing surface is in direct or indirect contact with the material and a suitable load is applied across both the sensing layer and at least a portion of the material, the sensing layer deforms and the sensing surface moves relative to the opposite surface. The device also comprises a source of electromagnetic radiation in optical communication with the sensing layer. The source is arranged for generating electromagnetic radiation having a coherence length that is of the same order of magnitude as the thickness of the sensing layer or longer than the thickness of the sensing layer.Type: GrantFiled: May 31, 2019Date of Patent: April 5, 2022Assignee: ONCORES MEDICAL PTY LTDInventors: Brendan Kennedy, Philip Wijesinghe
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Patent number: 11287244Abstract: A shearography a system and method for regularizing phase resolved shearograms with an arctan regularization function to produce regularized phase resolved shearogram outputs is provided. The system and method of the present disclosure optimizes the processing of phase resolved shearography allowing interference fringe analysis techniques to be applied to the regularized phase resolved shearogram output results of the processing.Type: GrantFiled: May 17, 2019Date of Patent: March 29, 2022Assignee: BAE Systems Information and Electronic Systems Integration Inc.Inventors: Andrew N. Acker, Michael J. DeWeert
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Patent number: 11287247Abstract: An apparatus for three-dimensional measurement of an object includes a positioning unit that is configured to receive information showing intersections of a projected line with a plurality of lines of predetermined or known position and to determine a position of the projected line based on the received image information. Further, the respective method and the respective computer program are described.Type: GrantFiled: September 20, 2018Date of Patent: March 29, 2022Assignee: FRAUNHOFER-GESELLSCHAFT ZUR FÖRDERUNG DER ANGEWANDTEN FORSCHUNG E.V.Inventors: Jens Döge, Christoph Hoppe, Willi Neudeck
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Patent number: 11287352Abstract: A method for determining the position of an irregularity in an optical transmission fiber using an optical time domain reflectometer, the method comprising the steps of emitting a succession of sampling light pulses into the optical transmission fiber, detecting reflected light pulses resulting from the reflection of the sampling light pulses at the irregularity in the optical transmission fiber and generating corresponding time-dependent detection signals, wherein different delays are associated with detection signals corresponding to different sampling light pulses, obtaining a combined signal from the detection signals, and analyzing the combined signal for determining the position of the irregularity in the optical transmission fiber with respect to the optical time domain reflectometer, wherein the combined signal corresponds to a superposition of the detection signals.Type: GrantFiled: May 24, 2017Date of Patent: March 29, 2022Assignee: XIEON NETWORKS S.a.r.l.Inventors: Lutz Rapp, Nuno Renato Duarte Pereira
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Patent number: 11287383Abstract: A Raman system for use in performing Raman spectroscopy on a sample, comprises an optical source, a spectrometer, and an optical system for coupling light from the optical source to a sample and for coupling light from the sample to the spectrometer and a further spectrometer. A Raman system for use in performing Raman spectroscopy on a sample, comprises an optical source, a spectrometer and an optical system for coupling light from the optical source and a further optical source to a sample and for coupling light from the sample to the spectrometer. The optical system may be configured for coupling light from the optical source and the further optical source to the sample and for coupling light from the sample to the spectrometer and the further spectrometer. The Raman system may be portable and/or may be configured to be transported and/or carried and/or may be handheld.Type: GrantFiled: September 13, 2017Date of Patent: March 29, 2022Assignee: UNIVERSITY COURT OF THE UNIVERSITY OF ST ANDREWSInventors: Kishan Dholakia, Mingzhou Chen
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Patent number: 11263855Abstract: A device for verifying a machine-readable security feature of a document of value, having: a transport device configured to transport the document on a transport plane, a radiation emitter that is arranged on a first flat side and emits radiation in the direction towards the first flat side, a sensor that is arranged on the first flat side and is configured to receive at least part of the luminescent radiation, a reflector arranged and configured on the second flat side-so as to at least partly reflect the luminescent radiation of the security feature of the document of value to the sensor, and an evaluation unit.Type: GrantFiled: December 18, 2018Date of Patent: March 1, 2022Assignee: CI Tech Sensors .4GInventor: Christoph Reinhard
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Patent number: 11263856Abstract: A method and system for authenticating an item includes providing the item including a polymer substrate comprising a polymer material and a doping material, the polymer material and the doping material configured to transmit radiation laterally through the polymer substrate, and the doping material capable of scattering radiation and absorbing radiation of at least one specific wavelength to generate a spectral signature in a spectral band of wavelengths of the transmitted radiation, irradiating the item with incident radiation characterized by a spectral band of wavelengths spanning a band of wavelengths including the at least one specific wavelength absorbed and scattered by the doping material, detecting the spectral signature after the radiation is transmitted laterally through the polymer substrate, and determining a code associated with the spectral signature.Type: GrantFiled: December 3, 2019Date of Patent: March 1, 2022Assignee: Spectra Systems CorporationInventor: Nabil Lawandy
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Patent number: 11243168Abstract: A system for analysis of vent gas of a urea plant, comprising: a Raman spectroscope; a sampling conduit that connects the spectroscope to a main pipe of the urea plant configured to convey a sample stream to be analysed to the spectroscope; and a temperature-adjusting device, operated by a temperature controller and acting on at least one thermal treatment portion of the conduit configured to adjust the temperature of the sample stream circulating in the conduit.Type: GrantFiled: September 19, 2017Date of Patent: February 8, 2022Assignee: SAIPEM S.P.A.Inventors: Cristina Cerrone, Lino Carlessi, Alberto Serrafero, Francesco Viola
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Patent number: 11231270Abstract: The optical measuring device includes a light source that outputs light of a plurality of wavelengths; a sensor head including a conversion lens that converts light incident via a light guide part, which includes a plurality of cores, into parallel light, and an objective lens that irradiates the light in which chromatic aberration is generated to a measurement object; and a spectroscope that acquires reflected light reflected by the measurement object and condensed by the sensor head via the light guide part and measures a spectrum of the reflected light. In the sensor head, a shield that shields light is arranged between the conversion lens and the objective lens to inhibit light emitted from one core among the plurality of cores included in the light guide part from entering cores other than the one core as the reflected light.Type: GrantFiled: December 17, 2018Date of Patent: January 25, 2022Assignee: OMRON CorporationInventors: Takahiro Okuda, Mariko Marukawa, Hisayasu Morino
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Patent number: 11215443Abstract: An optical measurement apparatus including: an irradiation optical system configured to irradiate, in a straight direction, a target area that includes a measurement area and a non-measurement area that is an area different from the measurement area, with irradiation light that includes a plurality of wavelengths; a reception optical system configured to receive measurement light that is transmission light or reflection light travelling from the target area as a result of the target area being irradiated with the irradiation light; and a calculation unit configured to generate a reception light spectrum that indicates a relationship between a wavelength and an intensity of the measurement light, for each position in the target area, based on a result of reception of the measurement light performed by the reception optical system, and calculate, for each wavelength, a transmittance or a reflectance of a measurement subject that is placed on the measurement area, based on the reception light spectrum thus generType: GrantFiled: September 28, 2020Date of Patent: January 4, 2022Assignee: Otsuka Electronics Co., Ltd.Inventor: Kunikazu Taguchi
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Patent number: 11215512Abstract: A light intensity fluctuation-insensitive projection objective wave aberration detection device and a detection method thereof, comprising a light source and illumination system, an object plane marking plate, an object plane displacement table, a tested projection objective, an image plane marking plate, a two-dimensional photosensor, an image plane displacement table and a control processing unit; the object plane marking plate and the image plane marking plate are provided with grating marks for shear interference test and marks for light intensity test, the shear interferograms and the light intensity information are simultaneously received through the two-dimensional photosensor, the light intensity fluctuation error corresponding to each phase-shifting interferogram is corrected through the light intensity information, improving the detection precision, reducing the complexity and the cost of the system, and improving the detection speed.Type: GrantFiled: September 25, 2020Date of Patent: January 4, 2022Assignee: Shanghai Institute of Optics And Fine Mechanics, Chinese Academy of SciencesInventors: Feng Tang, Xiangzhao Wang, Yunjun Lu, Changzhe Peng, Yang Liu
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Patent number: 11215511Abstract: A wavefront detector (100) and method for determining a signal wavefront (Ws) of a signal beam (Ls). A beam combiner (11) is configured to combine the signal beam (Ls) with a reference beam (Lr). An image detector (12) comprising an array of photosensitive pixels (12p) is configured to receive and measure an interference pattern (Wrs) of the combined signal and reference beams (Lr+Ls). A reference light source (14) is configured to generate the reference beam (Lr). A feedback controller (20) is configured to receive an interference signal (IB) based on measurement of at least part of the combined signal and reference beams (Lr+Ls), and control generation of the reference beam (Lr) by a feedback loop based on the interference signal (IB).Type: GrantFiled: November 20, 2018Date of Patent: January 4, 2022Assignee: Nederlandse Organisatie voor toegepast-natuurwetenschappelijk onderzoek TNOInventor: Rudolf Saathof
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Patent number: 11181400Abstract: The present invention discloses a Fiber Bragg Grating demodulation device with a suppressed fluctuation at a variable ambient temperature and a demodulation method. The device comprises a broadband light source (1), an optical attenuator (2), a tunable F-P filter (3), a first optical fiber isolator (41), an erbium-doped optical fiber amplifier (5), an optical fiber first-stage beam splitter (6), a first optical fiber second-stage beam splitter (71), optical fiber circulators (8), FBG sensor arrays (9), a first photoelectric detector array (161), an optical fiber gas cell (10), a second optical fiber second-stage beam splitter (72), an optical fiber F-P etalon (11), a notch filter (12), an optical fiber assisted interferometer (13), a data acquisition card (17) and a processor (18).Type: GrantFiled: October 27, 2016Date of Patent: November 23, 2021Assignee: Tianjin UniversityInventors: Junfeng Jiang, Tiegen Liu, Jinling Yan, Kun Liu, Shuang Wang, Xuezhi Zhang, Chuanjun Zang, Renwei Xie, Qiliang Chu
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Patent number: 11175139Abstract: Disclosed is a hybrid inertial measurement system including a cold atom interferometric inertial sensor having a laser source generating a sequence of laser pulses towards a cold atom burst and a conventional inertial sensor attached to the inertial reference frame of the interferometric inertial sensor. The hybrid system includes a signal processing system suitable for receiving an inertial measurement signal from the conventional inertial sensor and for generating in real time a non-linear frequency modulation signal, the feedback loop electronic system being configured to modulate in real time the central optical frequency of the laser according to the modulation signal, such that the cold atom interferometric inertial sensor generates a first hybrid inertial measurement signal by atomic interferometry corrected for the relative movements of the inertial reference frame.Type: GrantFiled: February 23, 2018Date of Patent: November 16, 2021Assignees: IXBLUE, INSTITUT D'OPTIQUE GRADUATE SCHOOL, CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE, UNIVERSITE DE BORDEAUXInventors: Brynle Barrett, Baptiste Battelier, Philippe Bouyer, Fabien Napolitano
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Patent number: 11162775Abstract: The present invention relates to a housing of a Michelson interferometer that may facilitate optical alignment of a plurality of optical components by applying a two-part structured housing to the Michelson interferometer.Type: GrantFiled: July 24, 2017Date of Patent: November 2, 2021Assignee: AGENCY FOR DEFENSE DEVELOPMENTInventors: Jongmin Lee, Juno Lee, Jaehwan Lee, Hyowook Bae
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Patent number: 11162905Abstract: A method is proposed for ascertaining the quality and/or the composition of milk, in particular during a milking operation, in which the fill level of the milk in a chamber is determined. After the fill level of the milk in the chamber has been determined, the milk is irradiated using at least one radiation of a predefined wavelength. The intensity of the reflected radiation is measured. The fill level and the intensity of the reflected radiation represent a value pair. Characteristic values are stored in a memory. A characteristic value is assigned to the ascertained value pair. A statement about the quality and/or the composition of the milk can be made from the characteristic value thus ascertained.Type: GrantFiled: March 23, 2017Date of Patent: November 2, 2021Assignee: GEA Farm Technologies GmbHInventors: Karsten Schönrock, Marek Krasutzki, Sascha Bieletzki, Reinhard Balkenhol
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Patent number: 11156553Abstract: An optical resonance imaging system includes a light emitting device to emit laser pulses onto a subject. The laser pulses include a first pulse and a second pulse to place the subject in an excited state. The laser pulses also include a third pulse to stimulate emission of one or more third order signals from the subject. The system also includes a spectrometer to receive the one or more third order signals and to generate spectrum signals commensurate with intensities of the one or more third order signals. The system may further include circuitry configured to analyze the spectrum signals, generate one or more images of the subject based on the analysis, and construct one or more maps of positions of the subject based on the one or more images.Type: GrantFiled: November 6, 2018Date of Patent: October 26, 2021Assignee: The University of ChicagoInventors: Gregory S. Engel, Marco Alberto Allodi
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Patent number: 11112592Abstract: According to some embodiments of the present invention, a fine focus microscope includes an objective lens for collecting light from an object being imaged, and a tube lens for forming a first image from light received from the objective lens. The fine focus microscope further includes a fine focus lens for forming a second image from the first image, and an eyepiece for forming a third image from the second image, wherein the third image is viewable by a user. The fine focus microscope further includes a field lens for directing light from the second image to the eyepiece, and a positioning system mechanically coupled to the fine focus lens, the eyepiece, and the field lens. The positioning system changes a position of the fine focus lens, the eyepiece, and the field lens with respect to the objective lens to provide a change in focus of the object being imaged.Type: GrantFiled: April 22, 2016Date of Patent: September 7, 2021Assignee: Board of Supervisors of Louisiana State University and Agricultural and Mechanical CollegeInventor: Martin Feldman
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Patent number: 11105686Abstract: Due to potential sampling errors (due to small tissue samples not necessarily directly from the developing tumor) and limited optical resolution (˜1 micron), cancer may be missed or detected too late for optimal treatment, or conservative interpretation of indeterminate findings could lead to unnecessary surgery. The novel technology herein—Spatial-domain Low-coherence Quantitative Phase Microscopy (SL-QPM)—can detect structural alterations within cell nuclei with nanoscale sensitivity (0.9 nm) (or nuclear nano-morphology) for “nano-pathological diagnosis” of cancer. SL-QPM uses original, unmodified cytology and histology specimens prepared with standard clinical protocols and stains. SL-QPM can easily integrate in existing clinical pathology laboratories. Results quantified the spatial distribution of optical path length or refractive index in individual nuclei with nanoscale sensitivity, which could be applied to studying nuclear nano-morphology as cancer progresses.Type: GrantFiled: May 9, 2011Date of Patent: August 31, 2021Assignee: University of Pittshurgh-Of the Commonwealth System of Higher EducationInventors: Yang Liu, Randall E. Brand, Pin Wang, Shikhar Fnu
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Patent number: 11099010Abstract: An alignment system and method for aligning the shaft centerline of rotating equipment positioned on opposing roller stands are provided. The system includes a laser transmission unit on the first stand and a target unit on the second stand. The laser transmission unit includes a laser that transmits a laser beam to a target on the target unit. When the laser beam contacts the center of the target, the roller stands are aligned. The system may be automated to detect the position of the laser beam relative to the target center and to adjust, as needed, the position of one of or both the roller stands using hydraulic cylinders coupled to a roller stand platform. The system and method reduce the time, effort, and manpower required to perform the alignment.Type: GrantFiled: June 21, 2018Date of Patent: August 24, 2021Assignee: General Electric CompanyInventors: Jose Troitino Lopez, Robert Edward Huth, Zachary Lane Walters