Patents by Inventor Gil Abramovich
Gil Abramovich has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8406487Abstract: This invention provides a method for contactless fingerprint detection and verification comprising illuminating a fingerprint and directing a reflected light through an imaging system using liquid crystal panels and birefringent elements to polarize the light. A plurality of polarized images are captured and used to calculate the depth of structural features on the fingertip. A means to generate a two-dimensional rolled equivalent image of the fingerprint is also provided which may then be used for verification and authentication. The invention also provides an imaging system for carrying out the method.Type: GrantFiled: January 27, 2010Date of Patent: March 26, 2013Assignee: General Electric CompanyInventors: Gil Abramovich, Kevin George Harding, Qingying Hu, Swaminathan Manickam, Meena Ganesh, Christopher Allen Nafis
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Patent number: 8340456Abstract: An imaging system includes a positionable device configured to axially shift an image plane, wherein the image plane is generated from photons emanating from an object and passing through a lens, a detector plane positioned to receive the photons of the object that pass through the lens, and a computer programmed to characterize the lens as a mathematical function, acquire two or more elemental images of the object with the image plane of each elemental image at different axial positions with respect to the detector plane, determine a focused distance of the object from the lens, based on the characterization of the lens and based on the two or more elemental images acquired, and generate a depth map of the object based on the determined distance.Type: GrantFiled: October 13, 2011Date of Patent: December 25, 2012Assignee: General Electric CompanyInventors: Mohammad Mehdi DaneshPanah, Kevin George Harding, Gil Abramovich, Daniel Curtis Gray
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Publication number: 20120250947Abstract: A system and method for contactless handprint capture is disclosed that includes an image capture device to capture whole handprint images of a subject hand at each of a plurality of different focal distances, with the image capture device including an imaging camera and an electro-optics arrangement having a plurality of light modulating elements and polarization sensitive optical elements having differing optical path lengths based on polarization states. A control system is coupled to the image capture device to cause the device to capture the handprint images at each of the different focal distances, with each handprint image having a depth-of-focus that overlaps with a depth-of-focus of handprint images at adjacent focal distances such that redundant handprint image data is captured. The control system registers each handprint image with positional data and creates a composite handprint image from the handprint images captured at the different focal distances.Type: ApplicationFiled: March 30, 2011Publication date: October 4, 2012Inventors: Gil Abramovich, Kevin George Harding, Joseph Czechowski, III, Frederick Wilson Wheeler
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Publication number: 20120250159Abstract: Disclosed are method and apparatus for forming multiple images of an object comprising a plurality of depth segments. An optical system comprises an infinity optical subsystem and a multi-image optical subsystem. The infinity optical subsystem is configured to receive light from the object and form a first image focussed at infinity. A multi-image optical subsystem is configured to receive the first image and form multiple images via multiple focussing lenses. Each multiple image can correspond to a different depth segment. A portion of the light from the first image can also be filtered before entering a focussing lens. Multiple images under different filtering conditions, corresponding to different depth segments or to the same depth segment, can be formed.Type: ApplicationFiled: April 4, 2011Publication date: October 4, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Gil Abramovich, Kevin George Harding, Robert William Tait, Mark Marshall Meyers, Qingying Hu
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Publication number: 20120076369Abstract: A system and method for contactless multi-fingerprint collection is disclosed. The contactless multi-fingerprint collection system includes an imaging volume, a user interface configured to provide feedback to the subject regarding a proximity of a hand to a desired imaging location within the imaging volume, and at least one image capture device to capture images of each of the plurality of fingerprints at each of at least two different depths from the fingerprints. The contactless multi-fingerprint collection system also includes a processor coupled to the at least one image capture device that is programmed to generate a composite image and a contour map of each of the plurality of fingerprints from the images captured at the at least two different depths and generate a two-dimensional rolled equivalent image of each of the plurality of fingerprints from the composite image and the contour map.Type: ApplicationFiled: September 24, 2010Publication date: March 29, 2012Inventors: Gil Abramovich, Kevin George Harding, Christopher Allen Nafis, Joseph Czechowski, III, Vijay Krishna Paruchuru, Daniel Curtis Gray
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Publication number: 20120050517Abstract: Imaging systems and methods for generating images of a sample wherein the system comprises an illumination source for illuminating the sample; an image viewing subsystem for capturing images from the sample; one or more liquid crystal panels and one or more birefringent elements, which are positioned between the sample and the image viewing subsystem, so that the images from the sample pass through the liquid crystal panels and the birefringent elements before reaching the image viewing subsystem; a device that changes one or more polarization states of the liquid crystal panels; and a controller that is configured to cause the device to change the polarization states of the liquid crystal panels.Type: ApplicationFiled: August 30, 2010Publication date: March 1, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Kevin George Harding, Robert John Filkins, Gil Abramovich
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Publication number: 20110310218Abstract: A multi-resolution lens system includes a relay lens configured to be directed toward a field-of-view (FOV) and receive a first plurality of image photons emanating from the FOV, a high-resolution lens positioned to receive a second plurality of image photons from the FOV and to pass the second plurality of image photons toward the relay lens, and a shutter device positioned to receive over an area thereof the image photons of the FOV that pass through the relay lens, and simultaneously receive overlaid on a portion of the area thereof the image photons from the portion of the FOV that pass through the high-resolution lens and toward the relay lens.Type: ApplicationFiled: June 18, 2010Publication date: December 22, 2011Inventors: Kevin George Harding, Gil Abramovich
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Patent number: 8045181Abstract: An inspection system is provided. The inspection system comprises a light source, a grating, a phase shifting unit, an imager, and a processor. The light source is configured to generate light. The grating is in a path of the generated light and is configured to produce a grating image after the light passes through the grating. The phase shifting unit is configured to form and reflect a plurality of phase shifted patterns of the grating image onto an object surface to form a plurality of projected phase shifting patterns. The imager is configured to obtain image data of the projected phase shifted patterns. The processor is configured to reconstruct the object surface from the image data. An inspection method and a phase shifting projector are also presented.Type: GrantFiled: May 21, 2009Date of Patent: October 25, 2011Assignee: General Electric CompanyInventors: Gil Abramovich, Kevin George Harding, Ralph Gerald Isaacs, Guiju Song, Joseph Benjamin Ross, Jianming Zheng
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Patent number: 7925075Abstract: A method for inspecting a feature of a part is provided. The method includes obtaining a profile corresponding to the feature using a sensor and projecting the profile onto a compensation plane normal to the feature for generating an updated profile. The method also includes using the updated profile for reducing a measurement error caused by an orientation of the sensor. An inspection system is also provided. The inspection system includes a sensor configured to capture a fringe image of a feature on a part. The inspection system further includes a processor configured to process the fringe image to obtain an initial profile of the feature and to project the initial profile onto a compensation plane normal to the feature.Type: GrantFiled: May 7, 2007Date of Patent: April 12, 2011Assignee: General Electric CompanyInventors: Ming Jia, Guiju Song, Jianming Zheng, Yu Ning, Kevin George Harding, Gil Abramovich, Joseph Benjamin Ross, Ralph Gerald Isaacs
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Publication number: 20110064282Abstract: This invention provides a method for contactless fingerprint detection and verification comprising illuminating a fingerprint and directing a reflected light through an imaging system using liquid crystal panels and birefringent elements to polarize the light. A plurality of polarized images are captured and used to calculate the depth of structural features on the fingertip. A means to generate a two-dimensional rolled equivalent image of the fingerprint is also provided which may then be used for verification and authentication. The invention also provides an imaging system for carrying out the method.Type: ApplicationFiled: January 27, 2010Publication date: March 17, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Gil Abramovich, Kevin George Harding, Qingying Hu, Swaminathan Manickam, Meena Ganesh, Christopher Allen Nafis
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Publication number: 20100296104Abstract: An inspection system is provided. The inspection system comprises a light source, a grating, a phase shifting unit, an imager, and a processor. The light source is configured to generate light. The grating is in a path of the generated light and is configured to produce a grating image after the light passes through the grating. The phase shifting unit is configured to form and reflect a plurality of phase shifted patterns of the grating image onto an object surface to form a plurality of projected phase shifting patterns. The imager is configured to obtain image data of the projected phase shifted patterns. The processor is configured to reconstruct the object surface from the image data. An inspection method and a phase shifting projector are also presented.Type: ApplicationFiled: May 21, 2009Publication date: November 25, 2010Applicant: GENERAL ELECTRIC COMPANYInventors: Gil Abramovich, Kevin George Harding, Ralph Gerald Isaacs, Guiju Song, Joseph Benjamin Ross, Jianming Zheng
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Publication number: 20090245594Abstract: An iris of an individual is imaged while illuminated with electromagnetic radiation having an illumination spectrum that is selected based on a color of the iris. The illumination spectrum/spectra is/are selected so that the resulting image will have a sufficient amount of detail of the iris as required for the application, such as identification of the individual. Alternatively, the iris can be imaged multiple times while illuminated by electromagnetic radiation of one of multiple different illumination spectra, and the best image or a combination of the images can be used for the application.Type: ApplicationFiled: March 31, 2008Publication date: October 1, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Gil Abramovich, Ambalangoda Gurunnanselage Amitha Perera, Robert William Tait, Frederick Wilson Wheeler
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Publication number: 20090060286Abstract: A biometric identification system and method are provided. The system includes an image capture mechanism for capturing multiple images of a person's iris, a registration component for registering a portion of each image attributable to the iris, and a super-resolution processing component for producing a higher resolution image of the iris. The method includes capturing multiple images of a person's iris, registering a portion of each image attributable to the iris, and applying super-resolution processing to the images to produce a higher-resolution image of the iris.Type: ApplicationFiled: September 4, 2007Publication date: March 5, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Frederick Wilson Wheeler, Ambalangoda Gurunnanselage Amitha Perera, Gil Abramovich
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Publication number: 20080281543Abstract: A method for inspecting a feature of a part is provided. The method includes obtaining a profile corresponding to the feature using a sensor and projecting the profile onto a compensation plane normal to the feature for generating an updated profile. The method also includes using the updated profile for reducing a measurement error caused by an orientation of the sensor. An inspection system is also provided. The inspection system includes a sensor configured to capture a fringe image of a feature on a part. The inspection system further includes a processor configured to process the fringe image to obtain an initial profile of the feature and to project the initial profile onto a compensation plane normal to the feature.Type: ApplicationFiled: May 7, 2007Publication date: November 13, 2008Applicant: GENERAL ELECTRIC COMPANYInventors: Ming Jia, Guiju Song, Jianming Zheng, Yu Ning, Kevin George Harding, Gil Abramovich, Joseph Benjamin Ross, Ralph Gerald Isaacs
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Patent number: 7168822Abstract: A reconfigurable illumination system for illuminating an object, and associated method. The illumination system comprises a cylindrical diffuser having a longitudinal aperture, a linescan camera positioned for having a direct line of sight to the object through the aperture of the diffuser, a base, and an illuminator supported on the base and positioned between the diffuser and the object, wherein the illuminator is selectively reconfigurable in a plurality of configurations, each configuration corresponding to a manufacturing process that requires visual inspection of the object.Type: GrantFiled: November 1, 2004Date of Patent: January 30, 2007Assignee: The Regents of the Univeristy of MichiganInventors: Gil Abramovich, Zachary Warlick, Yoram Koren
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Publication number: 20060228018Abstract: A machine vision inspection system. The system includes a plurality of cells adjustably interconnected, and a plurality of vision elements. Each vision element can be adjustably supported within one of the cells. The cells and the vision elements can be selectively configured to define a vision arrangement capable of high-resolution inspection of a part.Type: ApplicationFiled: April 12, 2005Publication date: October 12, 2006Inventors: Gil Abramovich, John Spicer, Jacob Barhak, Yoram Koren
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Publication number: 20060091825Abstract: A reconfigurable illumination system for illuminating an object, and associated method. The illumination system comprises a cylindrical diffuser having a longitudinal aperture, a linescan camera positioned for having a direct line of sight to the object through the aperture of the diffuser, a base, and an illuminator supported on the base and positioned between the diffuser and the object, wherein the illuminator is selectively reconfigurable in a plurality of configurations, each configuration corresponding to a manufacturing process that requires visual inspection of the object.Type: ApplicationFiled: November 1, 2004Publication date: May 4, 2006Inventors: Gil Abramovich, Zachary Warlick, Yoram Koren