Patents by Inventor Oliver Michael Strunk

Oliver Michael Strunk 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: 11030363
    Abstract: A physics engine executed on a processor to simulate real-time rigid body dynamics of a simulated physical system with permissive penetration functionality is provided. The physics engine may be configured to iteratively loop through a collision detection phase, solving phase, updating phase, and display phase. When a penetration between a pair of bodies is due to an initial penetration from a prior collision detection phase, the physics engine may permit the initial penetration between the pair of objects during the current solving phase by not applying a bias or position change to correct for the initial penetration. Also the physics engine may be configured to detect geometry changes and modify the initial penetration distance accordingly.
    Type: Grant
    Filed: November 28, 2016
    Date of Patent: June 8, 2021
    Assignee: Microsoft Technology Licensing, LLC
    Inventors: Oliver Michael Strunk, Nathanael Presson
  • Patent number: 10977856
    Abstract: A computer-implemented technique is described herein for generating a digital representation of real-world surfaces in an environment. The technique involves receiving sensor data captured by one or more depth-sensing devices. The technique then provides a low-detail (LD) representation of surfaces in the physical environment based on the sensor data; that LD representation describes one or more planes in the physical environment. The technique then generates a high-detail (HD) representation of the surfaces based on the sensor data and the LD representation. Finally, the technique provides an output result based on the LD representation and/or the HD representation. According to one illustrative aspect, the technique produces the HD representation such that it is non-duplicative of information that is already present in the LD representation. The technique performs this task by identifying and excluding HD information that is already adequately represented by the LD representation.
    Type: Grant
    Filed: March 29, 2018
    Date of Patent: April 13, 2021
    Assignee: Microsoft Technology Licensing, LLC
    Inventors: Yuri Pekelny, Oliver Michael Strunk
  • Patent number: 10672159
    Abstract: A computing system, including at least one imaging sensor configured to collect imaging data of a physical environment. The computing system may further include a processor configured to generate, based on the imaging data, a first anchor graph including a first plurality of anchors connected by a first plurality of edges. Each anchor of the first plurality of anchors may indicate a respective estimated position in the physical environment. The processor may be further configured to detect a change in the estimated position of at least one anchor of the first plurality of anchors relative to the at least one imaging sensor. Based on the change in the estimated position, the processor may reposition the first anchor graph relative to the at least one imaging sensor. Estimated lengths of the first plurality of edges and estimated angles between the first plurality of edges may remain fixed.
    Type: Grant
    Filed: April 2, 2018
    Date of Patent: June 2, 2020
    Assignee: MICROSOFT TECHNOLOGY LICENSING, LLC
    Inventors: Michael Alexander Buschbeck, Jad Nohra, Oliver Michael Strunk
  • Publication number: 20190304146
    Abstract: A computing system, including at least one imaging sensor configured to collect imaging data of a physical environment. The computing system may further include a processor configured to generate, based on the imaging data, a first anchor graph including a first plurality of anchors connected by a first plurality of edges. Each anchor of the first plurality of anchors may indicate a respective estimated position in the physical environment. The processor may be further configured to detect a change in the estimated position of at least one anchor of the first plurality of anchors relative to the at least one imaging sensor. Based on the change in the estimated position, the processor may reposition the first anchor graph relative to the at least one imaging sensor. Estimated lengths of the first plurality of edges and estimated angles between the first plurality of edges may remain fixed.
    Type: Application
    Filed: April 2, 2018
    Publication date: October 3, 2019
    Applicant: Microsoft Technology Licensing, LLC
    Inventors: Michael Alexander BUSCHBECK, Jad NOHRA, Oliver Michael STRUNK
  • Publication number: 20190304169
    Abstract: A computer-implemented technique is described herein for generating a digital representation of real-world surfaces in an environment. The technique involves receiving sensor data captured by one or more depth-sensing devices. The technique then provides a low-detail (LD) representation of surfaces in the physical environment based on the sensor data; that LD representation describes one or more planes in the physical environment. The technique then generates a high-detail (HD) representation of the surfaces based on the sensor data and the LD representation. Finally, the technique provides an output result based on the LD representation and/or the HD representation. According to one illustrative aspect, the technique produces the HD representation such that it is non-duplicative of information that is already present in the LD representation. The technique performs this task by identifying and excluding HD information that is already adequately represented by the LD representation.
    Type: Application
    Filed: March 29, 2018
    Publication date: October 3, 2019
    Inventors: Yuri PEKELNY, Oliver Michael STRUNK
  • Publication number: 20170344680
    Abstract: A physics engine executed on a processor to simulate real-time rigid body dynamics of a simulated physical system with permissive penetration functionality is provided. The physics engine may be configured to iteratively loop through a collision detection phase, solving phase, updating phase, and display phase. When a penetration between a pair of bodies is due to an initial penetration from a prior collision detection phase, the physics engine may permit the initial penetration between the pair of objects during the current solving phase by not applying a bias or position change to correct for the initial penetration. Also the physics engine may be configured to detect geometry changes and modify the initial penetration distance accordingly.
    Type: Application
    Filed: November 28, 2016
    Publication date: November 30, 2017
    Inventors: Oliver Michael Strunk, Nathanael Presson