Patents by Inventor Nils Rothe
Nils Rothe 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).
-
Publication number: 20240102947Abstract: A method for scanning a target object is provided. The method includes generating a scanning path including source poses at which a target object is scanned by a scanning source. The method also includes moving the target object along the scanning path and emitting a beam towards a region of interest (ROI) on the target object at each source pose. The method further includes receiving data characterizing the ROI based on the emitted beam and generating scanning data representing a geometrical position and an orientation of the ROI of the target object for each source pose. Pose information can be extracted based on the source poses and a 3D model of the target object can be reconstructed using the pose information and the scanning data and provided for display. Related systems and non-transitory computer readable mediums are also provided.Type: ApplicationFiled: August 2, 2023Publication date: March 28, 2024Inventors: Nils Rothe, Alexander Suppes
-
Patent number: 11698349Abstract: Systems and methods for scatter correction of x-ray images are provided. A scatter image of an object can be corrected using partial-scatter free images acquired using an aperture plate. The plate is positioned between an object and a radiation detector and includes apertures in a grid. The original x-rays pass through the apertures and scattered x-rays can be blocked by the aperture plate. The aperture plate can be moved to different positions, allowing partial scatter-free images to be acquired at each position of the aperture plate. A full scatter-free image can be generated by combining partial scatter-free images. The scatter and scatter-free images can be further used to train scatter correction models.Type: GrantFiled: October 1, 2021Date of Patent: July 11, 2023Assignee: Baker Hughes Oilfield Operations LLCInventor: Nils Rothe
-
Patent number: 11662321Abstract: Systems and methods for scatter correction of x-ray images are provided. A scatter image of an object can be corrected using partial-scatter free images acquired using an aperture plate. The plate is positioned between an object and a radiation detector and includes apertures in a grid. The original x-rays pass through the apertures and scattered x-rays can be blocked by the aperture plate. The aperture plate can be moved to different positions, allowing partial scatter-free images to be acquired at each position of the aperture plate. A full scatter-free image can be generated by combining partial scatter-free images. The scatter and scatter-free images can be further used to train scatter correction models.Type: GrantFiled: October 1, 2021Date of Patent: May 30, 2023Assignee: Baker Hughes Oilfield Operations LLCInventor: Nils Rothe
-
Patent number: 11604152Abstract: A system for computed tomography inspection can include a stage, a stationary radiation source, a stationary radiation detector, and a controller. The stage can secure a target thereon and rotate about a rotation axis. The radiation source can emit a beam of penetrating radiation from a focal point that is directed upon a portion of the target. The radiation detector can include a sensing face configured to acquire measurements of radiation beam intensity incident thereon as a function of position. The controller can command the stage to translate from a first position to a second position in a direction transverse to a central axis of the radiation beam. A magnification of the target at the first and second positions can be approximately equal. The stage does not translate transverse to the central axis of the radiation beam during measurement of the radiation beam intensity by the detector.Type: GrantFiled: September 29, 2020Date of Patent: March 14, 2023Assignee: Baker Hughes Oilfield Operations LLCInventors: Nils Rothe, Andreas Fischer
-
Patent number: 11585767Abstract: Systems and methods for non-destructive testing by computed tomography are provided. The system can include a stationary radiation source, a stage, and a plurality of stationary radiation detectors. The source can be configured to emit, from a focal point, a beam of penetrating radiation having a three-dimensional geometry and to direct the beam in a path incident upon a target. The stationary radiation source can be positioned with respect to the plurality of stationary radiation detectors and the stage such that, a first plurality of beam segment paths is defined between the focal point and respective sensing faces of the plurality of radiation detectors and at least one second beam segment path is defined between the focal point and a predetermined gap.Type: GrantFiled: May 21, 2021Date of Patent: February 21, 2023Assignee: GE Sensing & Inspection Technologies GmbHInventors: Eberhard Neuser, Alex Sawatzky, Nils Rothe, Alexander Suppes
-
Patent number: 11493458Abstract: Scatter correction for tomography: for each position, two images are acquired, a first image without and a second image with a scatter reducing aperture plate (50). A scatter image is calculated by subtracting the second image from the first image. The apertures (48) in the scatter reducing plate (50) are arranged hexagonally in order to optimise the packaging density of the apertures.Type: GrantFiled: August 17, 2020Date of Patent: November 8, 2022Assignee: GE Sensing & Inspection Technologies GmbHInventors: Alexander Suppes, Nils Rothe
-
Publication number: 20220113266Abstract: Systems and methods for scatter correction of x-ray images are provided. A scatter image of an object can be corrected using partial-scatter free images acquired using an aperture plate. The plate is positioned between an object and a radiation detector and includes apertures in a grid. The original x-rays pass through the apertures and scattered x-rays can be blocked by the aperture plate. The aperture plate can be moved to different positions, allowing partial scatter-free images to be acquired at each position of the aperture plate. A full scatter-free image can be generated by combining partial scatter-free images. The scatter and scatter-free images can be further used to train scatter correction models.Type: ApplicationFiled: October 1, 2021Publication date: April 14, 2022Inventor: Nils Rothe
-
Publication number: 20220113265Abstract: Systems and methods for scatter correction of x-ray images are provided. A scatter image of an object can be corrected using partial-scatter free images acquired using an aperture plate. The plate is positioned between an object and a radiation detector and includes apertures in a grid. The original x-rays pass through the apertures and scattered x-rays can be blocked by the aperture plate. The aperture plate can be moved to different positions, allowing partial scatter-free images to be acquired at each position of the aperture plate. A full scatter-free image can be generated by combining partial scatter-free images. The scatter and scatter-free images can be further used to train scatter correction models.Type: ApplicationFiled: October 1, 2021Publication date: April 14, 2022Inventor: Nils Rothe
-
Publication number: 20210356411Abstract: Systems and methods for non-destructive testing by computed tomography are provided. The system can include a stationary radiation source, a stage, and a plurality of stationary radiation detectors. The source can be configured to emit, from a focal point, a beam of penetrating radiation having a three-dimensional geometry and to direct the beam in a path incident upon a target. The stationary radiation source can be positioned with respect to the plurality of stationary radiation detectors and the stage such that, a first plurality of beam segment paths is defined between the focal point and respective sensing faces of the plurality of radiation detectors and at least one second beam segment path is defined between the focal point and a predetermined gap.Type: ApplicationFiled: May 21, 2021Publication date: November 18, 2021Inventors: Eberhard Neuser, Alex Sawatzky, Nils Rothe, Alexander Suppes
-
Patent number: 11016042Abstract: Systems and methods for non-destructive testing by computed tomography are provided. The system can include a stationary radiation source, a stage, and a plurality of stationary radiation detectors. The source can be configured to emit, from a focal point, a beam of penetrating radiation having a three-dimensional geometry and to direct the beam in a path incident upon a target. The stationary radiation source can be positioned with respect to the plurality of stationary radiation detectors and the stage such that, a first plurality of beam segment paths is defined between the focal point and respective sensing faces of the plurality of radiation detectors and at least one second beam segment path is defined between the focal point and a predetermined gap.Type: GrantFiled: August 13, 2019Date of Patent: May 25, 2021Assignee: GE SENSING & INSPECTION TECHNOLOGIES, GMBHInventors: Eberhard Neuser, Alex Sawatzky, Nils Rothe, Alexander Suppes
-
Publication number: 20210131980Abstract: Scatter correction for tomography: for each position, two images are acquired, a first image without and a second image with a scatter reducing aperture plate (50). A scatter image is calculated by subtracting the second image from the first image. The apertures (48) in the scatter reducing plate (50) are arranged hexagonally in order to optimise the packaging density of the apertures.Type: ApplicationFiled: August 17, 2020Publication date: May 6, 2021Inventors: Alexander Suppes, Nils Rothe
-
Publication number: 20210109039Abstract: A system for computed tomography inspection can include a stage, a stationary radiation source, a stationary radiation detector, and a controller. The stage can secure a target thereon and rotate about a rotation axis. The radiation source can emit a beam of penetrating radiation from a focal point that is directed upon a portion of the target. The radiation detector can include a sensing face configured to acquire measurements of radiation beam intensity incident thereon as a function of position. The controller can command the stage to translate from a first position to a second position in a direction transverse to a central axis of the radiation beam. A magnification of the target at the first and second positions can be approximately equal. The stage does not translate transverse to the central axis of the radiation beam during measurement of the radiation beam intensity by the detector.Type: ApplicationFiled: September 29, 2020Publication date: April 15, 2021Inventors: Nils Rothe, Andreas Fischer
-
Publication number: 20210048397Abstract: Systems and methods for non-destructive testing by computed tomography are provided. The system can include a stationary radiation source, a stage, and a plurality of stationary radiation detectors. The source can be configured to emit, from a focal point, a beam of penetrating radiation having a three-dimensional geometry and to direct the beam in a path incident upon a target. The stationary radiation source can be positioned with respect to the plurality of stationary radiation detectors and the stage such that, a first plurality of beam segment paths is defined between the focal point and respective sensing faces of the plurality of radiation detectors and at least one second beam segment path is defined between the focal point and a predetermined gap.Type: ApplicationFiled: August 13, 2019Publication date: February 18, 2021Inventors: Eberhard Neuser, Alex Sawatzky, Nils Rothe, Alexander Suppes
-
Patent number: 10746671Abstract: A method for imaging an object is presented. The method includes acquiring a first projection image of the object using a source and a detector, positioning a scatter rejecting aperture plate between the object and the detector, and acquiring a second projection image of the object with the scatter rejecting aperture plate disposed between the object and the detector. A scatter image of the object is generated based on the first projection image and the second projection image, and stored for subsequent imaging. A volumetric CT system for imaging an object is also presented. The system is configured to acquire a plurality of projection images of the object from a plurality of plurality of projection angles.Type: GrantFiled: March 6, 2015Date of Patent: August 18, 2020Assignee: GE Sensing & Inspection Technologies GmbHInventors: Alexander Suppes, Nils Rothe
-
Patent number: 10539515Abstract: Method and apparatus are provided for calibration or verification of accuracy specification of a computed tomographic system. In one embodiment, the apparatus can include a base structure, a first set of test objects arranged along a first axis and coupled to the base structure, and a second set of test objects arranged along a second axis and coupled to the base structure. The first set of test objects and the second set of test objects have a first geometry. The apparatus can also include a third set of test objects and a fourth set of test objects. The third set of test objects, and the fourth set of test objects have a second geometry different from the first geometry. Locations of the first, second third and fourth set of test objects are spatially fixed with respect to the base structure. The apparatus is a test specimen adapted for calibration or accuracy verification of computed tomography system.Type: GrantFiled: March 30, 2018Date of Patent: January 21, 2020Assignee: GE Inspection Technologies, LPInventors: Andreas Fischer, Nils Rothe, Alexander Suppes, Eugen Trapet
-
Publication number: 20190302036Abstract: Method and apparatus are provided for calibration or verification of accuracy specification of a computed tomographic system. In one embodiment, the apparatus can include a base structure, a first set of test objects arranged along a first axis and coupled to the base structure, and a second set of test objects arranged along a second axis and coupled to the base structure. The first set of test objects and the second set of test objects have a first geometry. The apparatus can also include a third set of test objects and a fourth set of test objects. The third set of test objects, and the fourth set of test objects have a second geometry different from the first geometry. Locations of the first, second third and fourth set of test objects are spatially fixed with respect to the base structure. The apparatus is a test specimen adapted for calibration or accuracy verification of computed tomography system.Type: ApplicationFiled: March 30, 2018Publication date: October 3, 2019Inventors: Andreas Fischer, Nils Rothe, Alexander Suppes, Eugen Trapet
-
Patent number: 10194874Abstract: A method of using computed tomography for determining a volumetric representation of a sample, involving a first reconstruction for reconstructing first reconstructed volume data of the sample from first x-ray projection data of the sample taken by an x-ray system, a second reconstruction for reconstructing second reconstructed volume data of the sample from second x-ray projection data of the sample taken by an x-ray system, characterized by calculating first individual confidence measures for single voxels of the first reconstructed volume data, calculating second individual confidence measures for single voxels of the second reconstructed volume data, and calculating, in a subsequent step, at least one resulting set of individual values for each voxel based on the first individual confidence measures and the second individual confidence measures.Type: GrantFiled: May 27, 2011Date of Patent: February 5, 2019Assignee: GE SENSING & INSPECTION TECHNOLOGIES GMBHInventors: Eberhard Neuser, Alexander Suppes, Nils Rothe, Michael Hoetter, Anja Frost
-
Publication number: 20180266970Abstract: A method for imaging an object is presented. The method includes acquiring a first projection image of the object using a source and a detector, positioning a scatter rejecting aperture plate between the object and the detector, and acquiring a second projection image of the object with the scatter rejecting aperture plate disposed between the object and the detector. A scatter image of the object is generated based on the first projection image and the second projection image, and stored for subsequent imaging. A volumetric CT system for imaging an object is also presented. The system is configured to acquire a plurality of projection images of the object from a plurality of plurality of projection angles.Type: ApplicationFiled: March 6, 2015Publication date: September 20, 2018Inventors: Alexander SUPPES, Nils ROTHE
-
Patent number: 9804106Abstract: A method and system for imaging an object are described herein. A scatter image of the object is generated at a projection angle. In generating the scatter image, a non-grid image of the object is acquired using a radiation source and a detector. An aperture plate is positioned between the object and the detector and a first grid image of the object is acquired. The aperture plate includes a plurality of apertures positioned on a grid. The aperture plate is moved to a second position and a second grid image of the object is acquired. A scatter image of the object is generated based on the non-grid image, the first grid image, and the second grid image and stored.Type: GrantFiled: September 15, 2015Date of Patent: October 31, 2017Assignee: General Electric CompanyInventor: Nils Rothe
-
Publication number: 20160258885Abstract: A method and system for imaging an object are described herein. A scatter image of the object is generated at a projection angle. In generating the scatter image, a non-grid image of the object is acquired using a radiation source and a detector. An aperture plate is positioned between the object and the detector and a first grid image of the object is acquired. The aperture plate includes a plurality of apertures positioned on a grid. The aperture plate is moved to a second position and a second grid image of the object is acquired. A scatter image of the object is generated based on the non-grid image, the first grid image, and the second grid image and stored.Type: ApplicationFiled: September 15, 2015Publication date: September 8, 2016Inventor: Nils Rothe