Patents Examined by Tarifur R. Chowdhury
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Patent number: 11619581Abstract: A system including a first micro-retarder array, wherein the first micro-retarder array is configured to convert a purely polarized light of an incident light into two components. The system additionally includes an optical device, wherein the optical device is configured to collimate the two components to two foci planes. Moreover, the system includes a second micro-retarder array, wherein the second micro-retarder array is configured to combine a set of two components of the incident light, thereby producing a second purely polarized light. Further the system includes a detector, wherein the detector is configured to receive the second purely polarized light.Type: GrantFiled: April 26, 2021Date of Patent: April 4, 2023Assignee: Purdue Research FoundationInventors: Garth Jason Simpson, Fengyuan Deng, Changqin Ding, Chen Li
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Patent number: 11609412Abstract: The present description relates to a device for line-scanning optical coherence tomographic microscopy. The device comprises an interferometric microscope comprising a reference arm, an object arm configured to receive an object, a beam splitter coupling said object arm and reference arm to a light source and to a sensor, and a first microscope objective arranged on said object arm. It further comprises a one-dimensional confocal spatial filtering device configured to interact with said light source in order to illuminate said object along a focal line located in an object space of the first microscope objective, and a device for unidirectional scanning of said focal line, which device is arranged on said object arm upstream of said first microscope objective and is configured to scan the focal line in a lateral direction (y) substantially perpendicular to an optical axis (z) of said first microscope objective.Type: GrantFiled: November 30, 2020Date of Patent: March 21, 2023Assignee: DAMAE MEDICALInventor: Jonas Ogien
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Patent number: 11609120Abstract: The monitoring and control of bioprocesses is provided. The present disclosure provides the ability to generate generic calibration models, independent of cell line, using inline Raman probes to monitor changes in glucose, lactate, glutamate, ammonium, viable cell concentration (VCC), total cell concentration (TCC) and product concentration. Calibration models were developed from cell culture using two different CHOK1SV GS-KO™ cell lines producing different monoclonal antibodies (mAbs). Developed predictive models, qualified using an independent CHOK1SV GS-KO™ cell line not used in calibration, measured changes in glucose, lactate, ammonium, VCC, and TCC with minor prediction errors over the course of cell culture with minimal cell line dependence. The development of these generic models allows the application of spectroscopic PAT techniques in a clinical manufacturing environment, where processes are typically run once or twice in GMP manufacturing based on a common platform process.Type: GrantFiled: October 5, 2018Date of Patent: March 21, 2023Assignee: Lonza LtdInventors: Thaddaeus Webster, Brian Hadley, Carrie Mason, Colin Jaques, Seshu Tummala, Ruth Christine Rowland-Jones, Yonatan Levinson, Nicholas Uth, Pankaj Sinha, Eytan Abraham
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Patent number: 11604060Abstract: Examples of the disclosure relate to an apparatus (101), a wearable electronic device and an optical arrangement for optical coherence tomography. The apparatus comprises an optical coherence tomography system (103) and an optical arrangement (105). The optical arrangement comprises at least one means for beam shaping (109) configured to shape a beam of light from the optical coherence tomography system. The optical arrangement also comprises at least one mirror (111) positioned so that light from the means for beam shaping is incident on the at least one mirror. The at least one mirror is configured to move in at least one direction relative to the optical coherence tomography system.Type: GrantFiled: February 20, 2019Date of Patent: March 14, 2023Assignee: Nokia Technologies OyInventors: Michael Eggleston, Mark Earnshaw, Cristian Bolle, Flavio Pardo
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Patent number: 11592563Abstract: Embodiments of the disclosure are drawn to apparatuses and methods for a rotating optical reflector. Optical systems may have a limited field of view, and so in order to expand the area that the optical system collects data from, the field of view of the optical system may be scanned across a target area. The present disclosure is directed to a rotating optical reflector, which includes a transmissive layer which refracts light onto a reflective layer, which has a normal which is not parallel to the axis about which the optical reflector is rotated. The optical reflector may be both statically and dynamically balanced, which may allow an increased size of the optical reflector, which in turn may increase the aperture of an optical system (e.g., a lidar system) using the rotating optical reflector.Type: GrantFiled: October 17, 2018Date of Patent: February 28, 2023Inventors: Peter Aaron Roos, Michael James Thorpe, Aaron Thomas Kreitinger, Christopher Ray Wilson
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Patent number: 11592404Abstract: Methods and apparatus, including computer program products, for determining a presence of an object located close to a lens (301) of a camera monitoring a scene. A first infrared illumination source (302) arranged to illuminate the scene from a first angle is activated. A first image (304) is acquired by the image capturing device (300). The first infrared illumination source (302) is deactivated, and a second infrared illumination source (306) arranged to illuminate the scene from a second angle is activated. A second image (308) is acquired by the image capturing device (300). Intensity information of the first image (304) and the second image (308) is compared to determine the presence of an object located close to the lens (301).Type: GrantFiled: November 18, 2020Date of Patent: February 28, 2023Assignee: AXIS ABInventors: Stefan Lundberg, Jonas Hjelmström
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Patent number: 11592384Abstract: A device for detecting (D) at least one predetermined particle (P) includes an interferometric element (EI) arranged so as to be illuminated by an incident radiation (Lin) and comprising at least one so-called thin layer (CM) disposed on top of a so-called substrate layer (Sub), the particle being attached to a surface (Sm) of the thin layer, the interferometric element (EI) forming a Fabry-Pérot cavity with or without attached particle P; a matrix sensor (Det) adapted to detect an image comprising a first portion (P1) deriving from the detection of the incident radiation transmitted (LTBG) by the interferometric element alone and a second portion (P2) deriving from the detection of the incident radiation transmitted (LTP) by the interferometric element and any particle (O, P) attached to a surface (Sm) of the thin layer; a processor (UT) linked to the sensor and configured: to calculate, as a function of wavelengths of the incident radiation ?i i?[1,m], the variation of intensity of at least one first pixelType: GrantFiled: December 8, 2020Date of Patent: February 28, 2023Assignee: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVESInventors: Mathieu Dupoy, Laurent Frey, Serge Gidon
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Patent number: 11592385Abstract: According to one embodiment, a monitoring device includes a detector unit including an image transfer element comprising an incident surface which allows light to enter from a light-transmissive base material on which a microbody is placed and an emission surface which emits the light entering from the incident surface, which transfers two-dimensional image data of the microbody to a semiconductor optical sensor, and the semiconductor optical sensor which receives light from the emission surface.Type: GrantFiled: September 14, 2020Date of Patent: February 28, 2023Assignee: CYTORONIX INC.Inventors: Kaita Imai, Shouhei Kousai, Michihiko Nishigaki
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Patent number: 11585696Abstract: An optical property evaluation apparatus evaluates an optical property of an evaluation object, and includes a light source, a polarization beam splitter, a polarization adjuster, a first detector, a second detector, and an analyzer. The analyzer obtains a reflectance when linearly polarized light in a specific direction is incident on the evaluation object based on the detection result by the first detector when the light with which the evaluation object is irradiated is set to be the linearly polarized light in the specific direction. The analyzer obtains a phase property at the reflection of the evaluation object based on the detection result by the first detector or the second detector when the light with which the evaluation object is irradiated is set to have a polarization state different from the linearly polarized light in the specific direction, and a Jones matrix.Type: GrantFiled: October 7, 2021Date of Patent: February 21, 2023Assignees: HAMAMATSU PHOTONICS K.K., The University of TokyoInventors: Yoshiro Nomoto, Takuo Tanemura
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Patent number: 11583179Abstract: Sensor data is captured with a sensor. The sensor data includes a lens-position of a prescription lens relative to a reference point of an optical coherence tomography (OCT) system. A mirror of a reference arm of the OCT system is positioned at an optical pathlength between an eye region of the prescription lens based at least in part on the sensor data. An OCT signal is generated while the mirror is positioned at the optical pathlength. At least one depth profile is generated that includes the prescription lens and the eye region.Type: GrantFiled: July 2, 2020Date of Patent: February 21, 2023Assignee: Meta Platforms Technologies, LLCInventors: Ruobing Qian, Mohamed Tarek El-Haddad, Robin Sharma
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Patent number: 11579082Abstract: A method for detecting an ice on a road surface includes: providing a spectral imaging camera; recording a first reflectance (R1) of the surface at 0.545 to 0.565 ?m using the spectral imaging camera; recording a second reflectance (R2) of the surface at 0.620 to 0.670 ?m using the spectral imaging camera; recording a third reflectance (R3) of the surface at 0.841 to 0.876 ?m using the spectral imaging camera; calculating an ice index based on the first reflectance, the second reflectance, and the third reflectance; providing a thermometer; recording a surface temperature of the surface using the thermometer; and detecting a presence of the ice on the surface based on the ice index and the surface temperature. A system for detecting an ice on a surface is also disclosed.Type: GrantFiled: August 24, 2021Date of Patent: February 14, 2023Assignee: SpringGem Weather Information, LLCInventors: Menglin Susan Jin, Jianming Yuan
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Patent number: 11579076Abstract: Provided is a method of correcting an error of an optical sensor including a light source and an image sensor, the method including emitting light to a material by driving the light source, acquiring an image of the material by the image sensor, and correcting an error of a distance between the light source and the image sensor of the optical sensor based on a gradation of the acquired image of the material.Type: GrantFiled: March 30, 2021Date of Patent: February 14, 2023Assignee: SAMSUNG ELECTRONICS CO., LTD.Inventors: Hyun Seok Moon, Sang Kyu Kim, Yoon Jae Kim, Jin Young Park, Sung Mo Ahn, Kun Sun Eom, Myoung Hoon Jung
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Patent number: 11578966Abstract: The present disclosure relates to a test paper counting technology, in particular to a portable test paper counting device and method based on a single photon detector. A portable test paper counting device based on a single photon detector is provided, which includes a box-shaped housing, two guide rail pairs, two hanger rods, a laser, a reflecting mirror, a single photon detector, a power supply, and a PC computer. A rectangular operating hole penetrating from left to right is formed in a lower edge of a right side wall of the box-shaped housing. A right part of a bottom wall of the box-shaped housing is provided with an assembly hole penetrating from up to down. A left side wall of the box-shaped housing is provided with a threading hole penetrating from left to right. Sliders of the two guide rail pairs both face downwards.Type: GrantFiled: September 2, 2021Date of Patent: February 14, 2023Assignee: Shanxi UniversityInventors: Jizhou Wu, Jie Ma, Suya Song, Liantuan Xiao, Suotang Jia
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Patent number: 11579070Abstract: A functionalised particle, wherein the particle has a first optical spectral signature in a first structural configuration of the particle and a second optical spectral signature in a second structural configuration of the particle.Type: GrantFiled: September 14, 2018Date of Patent: February 14, 2023Assignee: Nokia Technologies OyInventors: Michael Eggleston, Shreyas Shah
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Patent number: 11578964Abstract: An optical coherence tomography (OCT) apparatus includes a light source unit to generate light, a coupler unit to generate coupled light using reference light and measurement light generated by splitting the light, split the coupled light into n coupled and split lights and irradiate the n coupled and split lights, wherein n is a natural number greater than or equal to 2, a detection unit to irradiate the incident n coupled and split lights to n spectroscopes respectively and sequentially scan each light separated from each of the spectroscopes by wavelength range, and an image generation unit to generate a 2-dimensional single image using a result of the scanning by the detection unit. Accordingly, it is possible to improve the OCT image acquisition rate by distributing the scan time for a plurality of split lights using a plurality of array detectors.Type: GrantFiled: September 25, 2019Date of Patent: February 14, 2023Assignee: KYUNGPOOK NATIONAL UNIVERSITY INDUSTRY-ACADEMIC COOPERATION FOUNDATIONInventors: Jeehyun Kim, Pilun Kim
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Patent number: 11578965Abstract: An implementation cost of a line-scan optical coherence tomography (OCT) apparatus is reduced by miniaturizing a scanning mirror and using a light source with relaxed requirement in intensity uniformity. The mirror reflects a probe light beam to different parts of a sample for line-scanning the sample. A line-compressing lens compresses the probe light beam's cross-sectional length before the beam reaches the mirror, allowing the mirror to be miniaturized to reflect only the compressed beam. In generating a linear light beam that gives the probe light beam, a cascade of collimating lens, Powell lens and focusing lens generates the linear light beam from a raw light beam of a point source. A slit further filters the linear light beam to remove a peripheral portion thereof such that the linear light beam is substantially uniform in intensity even if an asymmetrical divergent light source is used.Type: GrantFiled: May 26, 2021Date of Patent: February 14, 2023Assignee: Hong Kong Applied Science and Technology Research Institute Company LimitedInventors: Vladislav Nikitin, Pingping Feng, Ka Shing Anthony Yuen, Sifan Xie, Xinliang Li
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Patent number: 11566993Abstract: The present disclosure provides improved systems and methods for automated cell identification/classification. More particularly, the present disclosure provides advantageous systems and methods for automated cell identification/classification using shearing interferometry with a digital holographic microscope. The present disclosure provides for a compact, low-cost, and field-portable 3D printed system for automatic cell identification/classification using a common path shearing interferometry with digital holographic microscopy. This system has demonstrated good results for sickle cell disease identification with human blood cells. The present disclosure provides that a robust, low cost cell identification/classification system based on shearing interferometry can be used for accurate cell identification.Type: GrantFiled: February 11, 2019Date of Patent: January 31, 2023Assignee: University of ConnecticutInventors: Bahram Javidi, Adam Markman, Siddharth Rawat, Arun Anand
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Patent number: 11564565Abstract: An optical coherence tomography (OCT) engine includes a digital Fourier-Transform (dFT) spectrometer, a tunable delay line, and a high-speed optical phased array (OPA) scanner integrated onto a single chip. The broadband dFT spectrometer offers superior signal-to-noise ratio (SNR) and fine axial resolution; the tunable delay line ensures large imaging depth by circumventing sensitivity roll-off; and the OPA can scan the beams at GHz rates without moving parts. Unlike conventional spectrometers, the dFT spectrometer employs an optical switch network to retrieve spectral information in an exponentially scaling fashion—its performance doubles with every new optical switch added to the network. Moreover, it also benefits from the Fellgett's advantage, which provide a significant SNR edge over conventional spectrometers. The tunable delay line balances the path length difference between the reference and sample arms, avoiding any need to sample high-frequency spectral fringes.Type: GrantFiled: February 2, 2021Date of Patent: January 31, 2023Assignee: Massachusetts Institute of TechnologyInventors: Juejun Hu, Tian Gu, Derek Kita, Carlos Andres Rios Ocampo
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Patent number: 11561163Abstract: According to one embodiment, a monitoring device includes a detector unit including an image transfer element comprising an incident surface which allows light to enter from a light-transmissive base material on which a microbody is placed and an emission surface which emits the light entering from the incident surface, which transfers two-dimensional image data of the microbody to a semiconductor optical sensor, and the semiconductor optical sensor which receives light from the emission surface.Type: GrantFiled: September 14, 2020Date of Patent: January 24, 2023Assignee: CYTORONIX INC.Inventors: Kaita Imai, Shouhei Kousai, Michihiko Nishigaki
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Patent number: 11553839Abstract: Provided herein are systems and methods to measure the intraocular pressure, ocular tissue geometry and the biomechanical properties of an ocular tissue, such as an eye-globe or cornea, in one instrument. The system is an optical coherence tomography subsystem and an applanation tonometer subsystem housed as one instrument and interfaced with a computer for at least data processing and image display. The system utilizes an air-puff and a focused micro air-pulse to induce deformation and applanation and displacement in the ocular tissue. Pressure profiles of the air puff with applanation times are utilized to measure intraocular pressure. Temporal profiles of displacement and/or spatio-temporal profiles of a displacement-generated elastic wave are analyzed to calculate biomechanical properties.Type: GrantFiled: December 21, 2018Date of Patent: January 17, 2023Assignee: UNIVERSITY OF HOUSTON SYSTEMInventors: Kirill V. Larin, Manmohan Singh, Jiasong Li, Zhaolong Han, Michael D. Twa