Patents Examined by Md M Rahman
-
Patent number: 11486870Abstract: The present invention relates to a method for spectroscopical in-ovo gender determination of fertilized and incubated bird eggs comprising the steps of: a. providing a number of passages in an egg shell of an egg for allowing entrance into an interior of the egg and/or exit from the interior of the egg of electromagnetic waves suitable for spectroscopy, b. introducing electromagnetic waves into the interior of the egg c. detecting electromagnetic waves exiting the egg; d. analysing, by spectroscopy, of the exiting electromagnetic waves at at least one passage of the number of passages; and e. determining the gender of a chicken embryo.Type: GrantFiled: May 28, 2019Date of Patent: November 1, 2022Assignee: SELEGGT GmbHInventor: Tjitze Meter
-
Patent number: 11484891Abstract: A fluid separation device includes a centrifuge in which a fluid is separated into at least two components, with an interface therebetween. At least a portion of one of the separated fluid components is removed from the centrifuge and flows through a vessel. Light is reflected off of the separated fluid component in the vessel and received and analyzed to determine its main wavelength. If the main wavelength is higher than a maximum value, a target location of the interface is changed. If the main wavelength is less than the maximum value, then the location of the interface is compared to the target location. When the interface is sufficiently close to the target location, the optical density of the separated fluid component in the vessel is compared to a minimum value. If the optical density is less than the minimum value, the target location of the interface is changed.Type: GrantFiled: May 20, 2020Date of Patent: November 1, 2022Assignee: Fenwal, Inc.Inventors: Benjamin E. Kusters, Richard I. Brown, Kyungyoon Min
-
Patent number: 11480467Abstract: Wearable spectroscopy systems and methods for identifying one or more characteristics of a target object are described. Spectroscopy systems may include a light source configured to emit light in an irradiated field of view and an electromagnetic radiation detector configured to receive reflected light from a target object irradiated by the light source. One or more processors of the systems may identify a characteristic of the target object based on a determined level of light absorption by the target object. Some systems and methods may include one or more corrections for scattered and/or ambient light such as applying an ambient light correction, passing the reflected light through an anti-scatter grid, or using a time-dependent variation in the emitted light.Type: GrantFiled: March 21, 2019Date of Patent: October 25, 2022Assignee: MAGIC LEAP, INC.Inventors: Adrian Kaehler, Christopher M. Harrises, Eric Baerenrodt, Mark Baerenrodt, Nastasja U. Robaina, Nicole Elizabeth Samec, Tammy Sherri Powers, Ivan Li Chuen Yeoh, Adam Carl Wright
-
Patent number: 11480530Abstract: Apparatus and associated methods relate to a system for detecting foreign object debris ingested into an aircraft engine. The system detects such foreign object debris by projecting a beam of light over an inlet of the aircraft engine. When foreign object debris is ingested into the aircraft engine, it intercepts the beam of light and scatters a back-scattered portion of the intercepted beam of light. An optical detector is configured to detect the back-scattered portion of the intercepted beam of light. A processor is configured to determine whether foreign object debris is ingested by the aircraft engine based on a comparison of a threshold value with a signal indicative of the back-scattered portion generated by the optical detector.Type: GrantFiled: April 8, 2021Date of Patent: October 25, 2022Assignee: Rosemount Aerospace Inc.Inventors: Mark Ray, Darren G. Jackson
-
Patent number: 11474029Abstract: A spectrophotometer includes: an infrared light source; an interferometer; a first detector; and a monitor unit. The monitor unit includes: a second detector; and a light amount control unit. The light amount control unit is operable to control the infrared light source such that the amount comes closer to a target light amount, based on the signal. The infrared light source emits light having a first wavelength range and light having a second wavelength range different from the first wavelength range. The second detector includes: a first light detection element; and a second light detection element. The first light detection element outputs to the light amount control unit a first voltage corresponding to the light having the first wavelength range. The second light detection element outputs to the light amount control unit a second voltage corresponding to the light having the second wavelength range.Type: GrantFiled: July 15, 2021Date of Patent: October 18, 2022Assignee: Shimadzu CorporationInventor: Masataka Migita
-
Patent number: 11474028Abstract: A substrate inspection system is provided to monitor characteristics of a substrate, while the substrate is disposed within (or being transferred into/out of) a processing unit of a liquid dispense substrate processing system. The inspection system is integrated within a liquid dispense substrate processing system and includes one or more optical sensors of a reflectometer (such as a spectrometer or laser-based transceiver) configured to obtain spectral data from a substrate. A controller is coupled to receive the spectral data from the optical sensors(s). The one or more optical sensors (or one or more optical fibers coupled to the rest of the optical sensor hardware) are coupled at locations within the substrate processing system. The controller analyzes the spectral data received from the optical sensors(s) to detect characteristic(s) of the substrate including, but not limited to, film thickness (FT), refractive index changes, and associated critical dimension (CD) changes.Type: GrantFiled: September 29, 2020Date of Patent: October 18, 2022Assignee: TOKYO ELECTRON LIMITEDInventors: Michael Carcasi, Mark Somervell, Joshua Hooge, Masahide Tadokoro
-
Patent number: 11471843Abstract: A stirring bar capable of reducing a dead space inside a container and efficiently using a contained liquid. A stirring bar introduced into a reagent bottle having an opening mouth portion and rotated by a magnetic force transmitted from the outside of the reagent bottle so as to stir a reagent in the reagent bottle, including: a magnet having a predetermined shape; and a main body including a magnetic member therein, in which the main body is provided with a through-hole which has an opening area corresponding to an opened area and is able to receive a nozzle in the opening area, and in which the stirring bar in a rotation state is able to receive the nozzle in a circular center area narrower than the opening area and having a diameter of an opening width of a center portion of the opening area.Type: GrantFiled: June 25, 2020Date of Patent: October 18, 2022Assignee: SEKISUI MEDICAL CO., LTD.Inventor: Toshiki Kawabe
-
Patent number: 11474038Abstract: The purpose of the present invention is to newly provide a method with which it is possible to appropriately evaluate the protective effect of an external preparation for skin such as a sunscreen cosmetic, particularly to evaluate how a UV-ray protective effect is affected by heat. This evaluation method is characterized by including (1) a step for forming a coating film of an external preparation for skin on a substrate, (2) a step for heat-treating the coating film of the external preparation for skin, and (3) a step for measuring the UV-ray protective effect of the heat-treated coating film of the external preparation for skin. The heat treatment is preferably carried out for at least one minute at a temperature of 30-70° C.Type: GrantFiled: January 31, 2019Date of Patent: October 18, 2022Assignee: Shiseido Company, Ltd.Inventors: Kouichi Nagai, Kei Ujimoto, Marianne Ayaka Touati, Yuko Nagare, Satoshi Yamaki
-
Patent number: 11474041Abstract: A sensor configured to determine a physical state of a vehicle occupant within a vehicle includes an electrode containing nanoscale metal fibers. The electrode is located within the vehicle to be in contact with the vehicle occupant. The sensor also includes a controller configured to determine the physical state of the vehicle occupant based on an output of the electrode.Type: GrantFiled: April 27, 2021Date of Patent: October 18, 2022Inventors: Zachary J. Richmond, Evangelia Rubino, Robert J. Seidler
-
Patent number: 11467019Abstract: The present invention relates to a monitoring system for measuring and communicating properties of a liquid, wherein said monitoring system is configured to be arranged in a mounted position above and at a distance from a surface of the liquid, and wherein said monitoring system comprises: a light source configured to emit light towards the surface of said liquid, such that at least a portion of said light is transmitted through said liquid; a light detector configured to detect light that has been emitted from said light source and transmitted through said liquid and to generate a representation of the intensity and spatial distribution of the emitted light that has been detected; a processing circuitry being configured to determine the turbidity of the liquid based on said representation.Type: GrantFiled: June 18, 2019Date of Patent: October 11, 2022Assignee: IVL Svenska Miljöinstitutet ABInventors: Fredrik Hallgren, Joel Wanemark
-
Patent number: 11467026Abstract: A variable-frequency light source is configured to emit a light beam and modulate a frequency of the light beam. A fiber optic cable is attached to the variable frequency light source. The fiber optic cable is configured to receive the light beam at an inlet and pass the light beam to an exit. Multiple optical detectors are attached to the fiber optic cable. Each of the optical detectors is configured to detect a specified frequency of light that is backscattered through the fiber optic cable. An actuation mechanism is attached to the fiber optic cable. The actuation mechanism is configured to deform the fiber optic cable in response to a stimulus.Type: GrantFiled: April 22, 2021Date of Patent: October 11, 2022Assignee: Saudi Arabian Oil CompanyInventors: Howard K. Schmidt, Jesus Manuel Felix Servin, Frode Hveding, Daniele Colombo
-
Patent number: 11467032Abstract: In an illustrative configuration, a method for monitoring air quality is disclosed. The method includes accepting analyte gas into a cell and reflecting light rays into the analyte gas repeatedly across the cell into at least one sensor. The light scattered by particulate matter in the analyte gas and amount of spectra-absorption due to presence of a gaseous chemical is then measured. Based on the determined amount of spectra-absorption and the measured scattered light the gaseous chemical is then measured.Type: GrantFiled: April 8, 2022Date of Patent: October 11, 2022Assignee: PROJECT CANARY, PBCInventors: Anna Ailene Scott, Yan Azdoud, Christopher Daniel Kelley
-
Patent number: 11454791Abstract: An optical component for illuminating a sample region with a periodic light pattern comprises: a first waveguide, a further waveguide and an optical splitter. The optical splitter has an input for receiving light, a first output and a second output. The first waveguide is optically coupled to the first output, to direct the first input light into the sample region in a first direction. The second output is optically coupled to the sample region to direct second input light into the sample region in a second direction. The further waveguide is arranged to receive third input light which is directed into the sample region in a third direction. The first direction, second direction and third direction are different from one another. The first and second input light interferes to form a periodic pattern in the sample region. The optical component may be used for structured illumination microscopy.Type: GrantFiled: April 5, 2018Date of Patent: September 27, 2022Assignee: Universitetet I Tromsø-Norges Arktiske UniversitetInventors: Balpreet Singh Ahluwalia, Thomas R. Huser, Olav Gaute Hellesø
-
Patent number: 11445947Abstract: An apparatus and method of measuring oxygenation of tissue in a non-invasive manner are provided. The apparatus comprises a light source configured to emit a light pattern to be projected onto the tissue, in which the light pattern comprises superimposed patterns having different patterns. A detector captures an image of a reflected light pattern which is reflected from the tissue as a result of the projected light pattern. A processor coupled to the detector can be configured to perform a transform on the image of the reflected light pattern and determine oxygenation of each of a plurality of layers of the tissue in response to the transform of the image. Polarimetry can be used in determining a change in polarization angle of light beam. Tissue oxygenation can be determined at a plurality of layers from one snapshot, for example oxygenation of retinal layers.Type: GrantFiled: May 27, 2020Date of Patent: September 20, 2022Assignee: Bioxytech Retina, Inc.Inventor: Ali Basiri
-
Patent number: 11450195Abstract: Disclosed is a detecting method of a wearable device, which comprises: providing a current to drive a light source to emit auxiliary light corresponding to ambient light received by the wearable device; and informing a wearing status indicative whether the wearable device is correctly worn by a user or not according to the current. By this way, the wearing status of the user can be easily detected.Type: GrantFiled: April 9, 2021Date of Patent: September 20, 2022Assignee: PixArt Imaging Inc.Inventors: Hsiu-Ling Yeh, Yung-Chang Lin
-
Patent number: 11446399Abstract: A system for quantifying the presence of at least one chemical and/or a physical condition in ocular tissues is provided. The system uses a membrane having at least one photo-reactive chemical- and/or physical condition-sensing indicator dye and a photo-reactive reference dye wherein both the photo-reactive chemical- and/or physical condition-sensing indicator dye and the photo-reactive reference dye are responsive to the same wavelength of an excitation light source but emit different wavelengths of light in a light spectrum. An optical data detector receives the emitted light and a processor splits the data into two or more colours of the light spectrum and measures the intensity of the two or more colours.Type: GrantFiled: November 20, 2018Date of Patent: September 20, 2022Assignee: OPTIGGX INC.Inventors: Marek Pacal, Jeremy Michael Sivak, Stefan Wilhelm, Desmond Fonn
-
Patent number: 11451004Abstract: One or more embodiments relates to a method of growing ultrasmooth and high quantum efficiency CsTe photocathodes. The method includes exposing a substrate of Cs using an alkali source such as an effusion cell; and controlling co-evaporating growth and co-deposition forming a CsTe growth. The method further includes monitoring a stoichiometry of the CsTe growth.Type: GrantFiled: October 19, 2020Date of Patent: September 20, 2022Assignee: U.S. Department of EnergyInventors: Dustin McIntyre, Daniel Hartzler
-
Patent number: 11441949Abstract: A method and system for identifying a Raman spectrum component of an observed spectrum is provided. The observed spectrum is produced by interrogating a material such as a tissue sample with light at the one or more predetermined wavelengths, and the observed spectrum includes a background fluorescence component representative of fluorescent emissions resulting from the light interrogation and a Raman spectrum component representative of a Raman scattering resulting from the light interrogation. The method includes a) creating a reconstructed fluorescence spectrum representative of the background fluorescence component of the observed spectrum using one or more empirically determined fluorescent spectral profiles; and b) identifying the Raman spectrum of the observed spectrum using the reconstructed fluorescence spectrum.Type: GrantFiled: April 5, 2021Date of Patent: September 13, 2022Assignee: CytoVeris Inc.Inventors: Gary Root, David Fournier, Rishikesh Pandey
-
Patent number: 11435229Abstract: Shortwave infrared (SWIR) hyperspectral imaging (HSI) systems comprise a supercontinuum laser source configured to illuminate objects and a receiver comprising a spectrometer configured to receive light reflected from the objects. In some cases, hyperspectral images can be created by raster scanning of the source/receiver across a scene. The supercontinuum laser source provides active illumination to allow collection of hyperspectral imagery during day (including overcast conditions) and night. Additionally, the hyperspectral imaging systems can use range-gated imaging.Type: GrantFiled: October 24, 2019Date of Patent: September 6, 2022Inventors: James F. Coward, David Alan Pechner, Gregory Mitchell, Ji Li
-
Patent number: 11435282Abstract: According to one embodiment, a gas analysis device includes: a base including a concave portion; a window includes a first film and a second film; an optical part that is located at a side of the window opposite to the base side and includes a light projector and a light receiver; and an optical path length controller that is located between the base and the window and has a controllable thickness. The concave portion includes a first sidewall that is oblique to a surface of the base, and a second sidewall that is oblique to the surface of the base. An oblique direction of the second sidewall is opposite to an oblique direction of the first sidewall. The light projector is configured to irradiate light toward the first sidewall. The light receiver is configured to convert light reflected by the second sidewall.Type: GrantFiled: April 30, 2021Date of Patent: September 6, 2022Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Shinji Saito, Tsutomu Kakuno, Rei Hashimoto, Kei Kaneko