Patents Assigned to Digital Signal Corporation
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Publication number: 20160328831Abstract: A system and method for improving a video characteristic of a video stream is described. According to various implementations of the invention, a changed region between a later-in-time image frame and an earlier-in-time image frame and an unchanged region between such two image frames are determined. A new improvement to the video characteristic is determined and applied to the changed region of the later-in-time image frame. A prior improvement to the video characteristic that was determined for the earlier-in-time image frame is applied to the unchanged region of the later-in-time image frame.Type: ApplicationFiled: November 16, 2015Publication date: November 10, 2016Applicant: Digital Signal CorporationInventors: Randall J. St. Romain, II, Ambrose J. Slone, Péter L. Venetianer
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Patent number: 9489746Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system estimates this trajectory in two stages: a first stage in which the range and Doppler measurements from the lidar system along with various feature measurements obtained from the images from the video system are used to estimate first stage motion aspects of the target (i.e., the trajectory of the target); and a second stage in which the images from the video system and the first stage motion aspects of the target are used to estimate second stage motion aspects of the target. Once the second stage motion aspects of the target are estimated, a three-dimensional image of the target may be generated.Type: GrantFiled: August 6, 2015Date of Patent: November 8, 2016Assignee: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 9453907Abstract: A system uses range and Doppler velocity measurements from a lidar subsystem and images from a video subsystem to estimate a six degree-of-freedom trajectory of a target. The video subsystem and the lidar subsystem may be aligned with one another by mapping the measurements of various facial features obtained by each of the subsystems to one another.Type: GrantFiled: March 15, 2013Date of Patent: September 27, 2016Assignee: Digital Signal CorporationInventors: Anatoley T. Zheleznyak, Chris Roller, Gavin Rosenbush, Richard L. Sebastian
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Publication number: 20160196664Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system estimates this trajectory in two stages: a first stage in which the range and Doppler measurements from the lidar system along with various feature measurements obtained from the images from the video system are used to estimate first stage motion aspects of the target (i.e., the trajectory of the target); and a second stage in which the images from the video system and the first stage motion aspects of the target are used to estimate second stage motion aspects of the target. Once the second stage motion aspects of the target are estimated, a three-dimensional image of the target may be generated.Type: ApplicationFiled: August 6, 2015Publication date: July 7, 2016Applicant: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 9188676Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system may determine a skin area or face contour based on the 3D measurements from a lidar subsystem and information regarding the location of various facial features from the 2D video images of a video subsystem.Type: GrantFiled: March 15, 2013Date of Patent: November 17, 2015Assignee: Digital Signal CorporationInventor: Anatoley T. Zheleznyak
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Publication number: 20150293211Abstract: A laser radar, or “lidar” system, employs an asymmetric single-ended detector to detect received signals reflected back from targets. The asymmetric single-ended detector benefits from a reduced part count and fewer optical splices while nearly achieving a same gain as a symmetric differential detector.Type: ApplicationFiled: April 9, 2014Publication date: October 15, 2015Applicant: Digital Signal CorporationInventors: Stephan Schulz, Hani Daniel
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Publication number: 20150287174Abstract: A system and method for improving a video characteristic of a video stream is described. According to various implementations of the invention, a changed region between a later-in-time image frame and an earlier-in-time image frame and an unchanged region between such two image frames are determined. A new improvement to the video characteristic is determined and applied to the changed region of the later-in-time image frame. A prior improvement to the video characteristic that was determined for the earlier-in-time image frame is applied to the unchanged region of the later-in-time image frame.Type: ApplicationFiled: April 4, 2014Publication date: October 8, 2015Applicant: Digital Signal CorporationInventors: Randall J. St. Romain, II, Ambrose J. Slone, Péter L. Venetianer
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Publication number: 20150278977Abstract: A system and method for detecting a potential match between a candidate facial image and a dataset of facial images is described. Some implementations of the invention determine whether a candidate facial image (or multiple facial images) of a person taken, for example, at point of entry corresponds to one or more facial images stored in a dataset of persons of interest (e.g., suspects, criminals, terrorists, employees, VIPs, “whales,” etc.). Some implementations of the invention detect potential fraud in a dataset of facial images. In a first form of potential fraud, a same facial image is associated with multiple identities. In a second form of potential fraud, different facial images are associated with a single identity, as in the case, for example, of identity theft. According to various implementations of the invention, spectral clustering techniques are used to determine a likelihood that pairs of facial images (or pairs of facial image sets) correspond to the person or different persons.Type: ApplicationFiled: March 25, 2015Publication date: October 1, 2015Applicant: Digital Signal CorporationInventor: Chris Roller
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Publication number: 20150260844Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory (6DOF) of a target. The 6DOF transformation parameters are used to transform multiple images to the frame time of a selected image, thus obtaining multiple images at the same frame time. These multiple images may be used to increase a resolution of the image at each frame time, obtaining the collection of the superresolution images.Type: ApplicationFiled: February 2, 2015Publication date: September 17, 2015Applicant: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 9134402Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system calibrates the lidar subsystem with the video subsystem in two stages. In a first stage, the system calibrates the lidar subsystem so that lidar measurements provide 3D lidar coordinates. In a second stage, the system relates the 3D lidar coordinates with a video image obtained from the video subsystem.Type: GrantFiled: March 15, 2013Date of Patent: September 15, 2015Assignee: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 9103907Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system estimates this trajectory in two stages: a first stage in which the range and Doppler measurements from the lidar system along with various feature measurements obtained from the images from the video system are used to estimate first stage motion aspects of the target (i.e., the trajectory of the target); and a second stage in which the images from the video system and the first stage motion aspects of the target are used to estimate second stage motion aspects of the target. Once the second stage motion aspects of the target are estimated, a three-dimensional image of the target may be generated.Type: GrantFiled: March 31, 2014Date of Patent: August 11, 2015Assignee: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 9081090Abstract: Various implementations of the invention compensate for “phase wandering” in tunable laser sources. Phase wandering may negatively impact a performance of a lidar system that employ such laser sources, typically by reducing a coherence length/range of the lidar system, an effective bandwidth of the lidar system, a sensitivity of the lidar system, etc. Some implementations of the invention compensate for phase wandering near the laser source and before the output of the laser is directed toward a target. Some implementations of the invention compensate for phase wandering in the target signal (i.e., the output of the laser that is incident on and reflected back from the target). Some implementations of the invention compensate for phase wandering at the laser source and in the target signal.Type: GrantFiled: March 15, 2013Date of Patent: July 14, 2015Assignee: Digital Signal CorporationInventors: Richard L. Sebastian, Kendall L. Belsley, Stephan Schulz
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Publication number: 20150160332Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system calibrates the lidar subsystem with the video subsystem in two stages. In a first stage, the system calibrates the lidar subsystem so that lidar measurements provide 3D lidar coordinates. In a second stage, the system relates the 3D lidar coordinates with a video image obtained from the video subsystem.Type: ApplicationFiled: March 15, 2013Publication date: June 11, 2015Applicant: Digital Signal CorporationInventor: Digital Signal Corporation
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Patent number: 8948497Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory (6DOF) of a target. The 6DOF transformation parameters are used to transform multiple images to the frame time of a selected image, thus obtaining multiple images at the same frame time. These multiple images may be used to increase a resolution of the image at each frame time, obtaining the collection of the superresolution images.Type: GrantFiled: March 15, 2013Date of Patent: February 3, 2015Assignee: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Patent number: 8891566Abstract: A system and method for controllably chirping electromagnetic radiation from a radiation source includes an optical cavity arrangement. The optical cavity arrangement enables electromagnetic radiation to be produced with a substantially linear chirp rate and a configurable period. By selectively injecting electromagnetic radiation into the optical cavity, the electromagnetic radiation may be produced with a single resonant mode that is frequency shifted at the substantially linear chirp rate. Producing the electromagnetic radiation with a single resonant mode may increase the coherence length of the electromagnetic radiation, which may be advantageous when the electromagnetic radiation is implemented in various applications. For example, the electromagnetic radiation produced by the optical cavity arrangement may enhance a range, speed, accuracy, and/or other aspects of a laser radar system.Type: GrantFiled: December 19, 2011Date of Patent: November 18, 2014Assignee: Digital Signal CorporationInventor: Kendall L. Belsley
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Publication number: 20140320818Abstract: Detecting position information related to a face, and more particularly to an eyeball in a face, using a detection and ranging system, such as a Radio Detection And Ranging (“RADAR”) system, or a Light Detection And Ranging (“LIDAR”) system. The position information may include a location of the eyeball, translational motion information related to the eyeball (e.g., displacement, velocity, acceleration, jerk, etc.), rotational motion information related to the eyeball (e.g., rotational displacement, rotational velocity, rotational acceleration, etc.) as the eyeball rotates within its socket.Type: ApplicationFiled: April 30, 2014Publication date: October 30, 2014Applicant: Digital Signal CorporationInventors: Richard Lee Sebastian, Kendall L. Belsley
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Publication number: 20140300884Abstract: A system uses range and Doppler velocity measurements from a lidar system and images from a video system to estimate a six degree-of-freedom trajectory of a target. The system estimates this trajectory in two stages: a first stage in which the range and Doppler measurements from the lidar system along with various feature measurements obtained from the images from the video system are used to estimate first stage motion aspects of the target (i.e., the trajectory of the target); and a second stage in which the images from the video system and the first stage motion aspects of the target are used to estimate second stage motion aspects of the target. Once the second stage motion aspects of the target are estimated, a three-dimensional image of the target may be generated.Type: ApplicationFiled: March 31, 2014Publication date: October 9, 2014Applicant: Digital Signal CorporationInventors: Richard L. Sebastian, Anatoley T. Zheleznyak
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Publication number: 20140269790Abstract: Various implementations of the invention compensate for “phase wandering” in tunable laser sources. Phase wandering may negatively impact a performance of a lidar system that employ such laser sources, typically by reducing a coherence length/range of the lidar system, an effective bandwidth of the lidar system, a sensitivity of the lidar system, etc. Some implementations of the invention compensate for phase wandering near the laser source and before the output of the laser is directed toward a target. Some implementations of the invention compensate for phase wandering in the target signal (i.e., the output of the laser that is incident on and reflected back from the target). Some implementations of the invention compensate for phase wandering at the laser source and in the target signal.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: Digital Signal CorporationInventors: RICHARD L. SEBASTIAN, Kendall L. Belsley, Stephan Schulz
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Publication number: 20140268290Abstract: Various implementations of the invention compensate for “phase wandering” in tunable laser sources. Phase wandering may negatively impact a performance of a lidar system that employ such laser sources, typically by reducing a coherence length/range of the lidar system, an effective bandwidth of the lidar system, a sensitivity of the lidar system, etc. Some implementations of the invention compensate for phase wandering near the laser source and before the output of the laser is directed toward a target. Some implementations of the invention compensate for phase wandering in the target signal (i.e., the output of the laser that is incident on and reflected back from the target). Some implementations of the invention compensate for phase wandering at the laser source and in the target signal.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: Digital Signal CorporationInventors: RICHARD L. SEBASTIAN, Kendall L. Belsley, Stephan Schulz
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Patent number: 8796181Abstract: The invention pertains to creating new extremely low resistance (“ELR”) materials, which may include high temperature superconducting (“HTS”) materials. In some implementations of the invention, an ELR material may be modified by depositing a layer of modifying material unto the ELR material to form a modified ELR material. The modified ELR material has improved operational characteristics over the ELR material alone. Such operational characteristics may include operating at increased temperatures or carrying additional electrical charge or other operational characteristics. In some implementations of the invention, the ELR material is a cuprate-perovskite, such as, but not limited to YBCO. In some implementations of the invention, the modifying material is a conductive material that bonds easily to oxygen, such as, but not limited to, chromium.Type: GrantFiled: June 13, 2012Date of Patent: August 5, 2014Assignee: Digital Signal CorporationInventors: Douglas J. Gilbert, Timothy S. Cale