Patents by Inventor David Sebok

David Sebok 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).

  • Patent number: 9826942
    Abstract: A method and a system for correcting and reconstruing a plurality of projection images based on detected patient motion. The method includes obtaining a plurality of projection images generated by a scanner. Each of the plurality of projection images includes at least three markers. Each of the at least three markers has a measured three-dimensional position and measured positions on a detector panel of the scanner in a first dimension and a second dimension. The method further includes determining a position error vector for each of the plurality of projection images based on the at least three markers in each of the plurality of projection images, the position error vector defining patient motion in the projection image.
    Type: Grant
    Filed: February 4, 2010
    Date of Patent: November 28, 2017
    Assignee: DENTAL IMAGING TECHNOLOGIES CORPORATION
    Inventors: David Sebok, Serguei Gouzeev, Horst F. Bruning, Ivan Charamisinau
  • Patent number: 9730651
    Abstract: A method and a system for correcting and reconstruing a plurality of projection images based on detected patient motion. The method includes obtaining a plurality of projection images generated by a scanner. Each of the plurality of projection images includes at least three markers. Each of the at least three markers has a measured three-dimensional position and measured positions on a detector panel of the scanner in a first dimension and a second dimension. The method further includes determining a position error vector for each of the plurality of projection images based on the at least three markers in each of the plurality of projection images, the position error vector defining patient motion in the projection image.
    Type: Grant
    Filed: February 4, 2010
    Date of Patent: August 15, 2017
    Assignee: DENTAL IMAGING TECHNOLOGIES CORPORATION
    Inventors: David Sebok, Serguei Gouzeev, Horst F. Bruning, Ivan Charamisinau
  • Patent number: 9082036
    Abstract: A method and system of determining a sub-pixel point position of a marker point in an image. Embodiments of the invention allow a marker point sub-pixel localization module executable by an electronic processing unit to obtain an image, including a marker point, and to derive both a background corrected marker point profile and a background and baseline corrected marker point profile. Additionally, embodiments of the invention allow defining of a sub-pixel position of the marker point as a center of a peak of the background corrected marker point profile. Thus, embodiments of the invention allow for rapidly detecting and localizing external markers placed on a patient in projection images.
    Type: Grant
    Filed: November 25, 2009
    Date of Patent: July 14, 2015
    Assignee: DENTAL IMAGING TECHNOLOGIES CORPORATION
    Inventor: David Sebok
  • Patent number: 9082182
    Abstract: A method and a system for determining patient motion in an image. The method includes obtaining an image based on image data generated by a scanner during a scan. The image includes at least three markers assumed to be in a rigid or semi-rigid configuration. Each of the at least three markers has actual measured positions on a detector panel of the scanner in a first dimension and a second dimension. The method further includes determining a reference three-dimensional position for each of the at least three markers and defining equations describing the relationship between the reference three-dimensional position and the actual measured positions of each of the at least three markers, geometric parameters of the scanner, and patient motion.
    Type: Grant
    Filed: February 4, 2010
    Date of Patent: July 14, 2015
    Assignee: DENTAL IMAGING TECHNOLOGIES CORPORATION
    Inventor: David Sebok
  • Patent number: 9082177
    Abstract: A method and system of rapidly detecting and mapping a plurality of marker points identified in a sequence of projection images to a physical marker placed on a patient or other scanned object. Embodiments of the invention allow a marker physical mapping module executable by an electronic processing unit to obtain a sequence of images based on image data generated by a scanner. Each image in the sequence of images represents an angle of rotation by the scanner and includes a plurality of marker points each having a U position and a V position. Expected U and V positions for the physical marker are calculated and a list of candidate marker points is created based on the expected positions. The images are processed and selected candidate marker points are added to a good point list.
    Type: Grant
    Filed: November 25, 2009
    Date of Patent: July 14, 2015
    Assignee: DENTAL IMAGING TECHNOLOGIES CORPORATION
    Inventor: David Sebok
  • Patent number: 8363919
    Abstract: A mechanism for rapidly detecting and localizing external markers placed on a patient in projection images. Embodiments of the invention allow the markers to be detected even in the presence of dense surrounding anatomy and extensive patient motion. Once the positions of the marker points on the projection images are extracted, the marker points can be used to perform marker-based patient motion detection. Embodiments of the invention can also be used outside of motion correction, such as for scanner calibration, automatic cephalometric measurements, and quality control assessment.
    Type: Grant
    Filed: November 25, 2009
    Date of Patent: January 29, 2013
    Assignee: Imaging Sciences International LLC
    Inventor: David Sebok
  • Patent number: 8180130
    Abstract: A method and system of determining a radial distance (R), an angular position (?), and an axial position (Z) of a marker identified in a sequence of projection images. A marker three-dimensional localization module (executable by the electronic processing unit) obtains a sequence of images based on image data generated by a scanner. Each image in the sequence of images represents an angle of rotation by the scanner and includes a marker point position. The behavior of first values and second values of the marker point positions are analyzed through the sequence of images to determine the radial distance of the marker, the angular position of the marker, and the axial position of the marker allowing for rapidly detecting and localizing external markers placed on a patient in projection images.
    Type: Grant
    Filed: November 25, 2009
    Date of Patent: May 15, 2012
    Assignee: Imaging Sciences International LLC
    Inventor: David Sebok
  • Publication number: 20110123085
    Abstract: A method and system of determining a sub-pixel point position of a marker point in an image. Embodiments of the invention allow a marker point sub-pixel localization module executable by an electronic processing unit to obtain an image, including a marker point, and to derive both a background corrected marker point profile and a background and baseline corrected marker point profile. Additionally, embodiments of the invention allow defining of a sub-pixel position of the marker point as a center of a peak of the background corrected marker point profile. Thus, embodiments of the invention allow for rapidly detecting and localizing external markers placed on a patient in projection images.
    Type: Application
    Filed: November 25, 2009
    Publication date: May 26, 2011
    Inventor: David Sebok
  • Publication number: 20110123084
    Abstract: A mechanism for rapidly detecting and localizing external markers placed on a patient in projection images. Embodiments of the invention allow the markers to be detected even in the presence of dense surrounding anatomy and extensive patient motion. Once the positions of the marker points on the projection images are extracted, the marker points can be used to perform marker-based patient motion detection. Embodiments of the invention can also be used outside of motion correction, such as for scanner calibration, automatic cephalometric measurements, and quality control assessment.
    Type: Application
    Filed: November 25, 2009
    Publication date: May 26, 2011
    Inventor: David Sebok
  • Publication number: 20110123088
    Abstract: A method and a system for determining patient motion in an image. The method includes obtaining an image based on image data generated by a scanner during a scan. The image includes at least three markers assumed to be in a rigid or semi-rigid configuration. Each of the at least three markers has actual measured positions on a detector panel of the scanner in a first dimension and a second dimension. The method further includes determining a reference three-dimensional position for each of the at least three markers and defining equations describing the relationship between the reference three-dimensional position and the actual measured positions of each of the at least three markers, geometric parameters of the scanner, and patient motion.
    Type: Application
    Filed: February 4, 2010
    Publication date: May 26, 2011
    Inventor: David Sebok
  • Publication number: 20110123081
    Abstract: A method and a system for correcting and reconstruing a plurality of projection images based on detected patient motion. The method includes obtaining a plurality of projection images generated by a scanner. Each of the plurality of projection images includes at least three markers. Each of the at least three markers has a measured three-dimensional position and measured positions on a detector panel of the scanner in a first dimension and a second dimension. The method further includes determining a position error vector for each of the plurality of projection images based on the at least three markers in each of the plurality of projection images, the position error vector defining patient motion in the projection image.
    Type: Application
    Filed: February 4, 2010
    Publication date: May 26, 2011
    Inventors: David Sebok, Serguei Gouzeev, Horst F. Bruning, Ivan Charamisinau
  • Publication number: 20110123070
    Abstract: A method and system of determining a radial distance (R), an angular position (?), and a axial position (Z) of a marker identified in a sequence of projection images. Embodiments of the invention allow a marker three-dimensional localization module executable by the electronic processing unit to obtain a sequence of images based on image data generated by a scanner. Each image in the sequence of images represents an angle of rotation by the scanner and includes a marker point position. The behavior of first values and second values of the marker point positions are analyzed through the sequence of images to determine the radial distance of the marker, the angular position of the marker, and the axial position of the marker. Thus, embodiments of the invention allow for rapidly detecting and localizing external markers placed on a patient in projection images.
    Type: Application
    Filed: November 25, 2009
    Publication date: May 26, 2011
    Inventor: David Sebok
  • Publication number: 20110123080
    Abstract: A method and system of rapidly detecting and mapping a plurality of marker points identified in a sequence of projection images to a physical marker placed on a patient or other scanned object. Embodiments of the invention allow a marker physical mapping module executable by an electronic processing unit to obtain a sequence of images based on image data generated by a scanner. Each image in the sequence of images represents an angle of rotation by the scanner and includes a plurality of marker points each having a U position and a V position. Expected U and V positions for the physical marker are calculated and a list of candidate marker points is created based on the expected positions. The images are processed and selected candidate marker points are added to a good point list.
    Type: Application
    Filed: November 25, 2009
    Publication date: May 26, 2011
    Inventor: David Sebok