Patents by Inventor William Robert Martin
William Robert Martin 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: 11596383Abstract: A 3D ultrasonic diagnostic imaging system produces 3D display images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. In a preferred embodiment the determination of motion and the consequent decision to use interpolated or interleaved data for display is determined on a pixel-by-pixel basis.Type: GrantFiled: March 27, 2020Date of Patent: March 7, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: David Prater, Stephen P. Watkins, William Robert Martin
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Patent number: 11350908Abstract: Ultrasound image devices, systems, and methods are provided. In one embodiment, an ultrasound imaging system includes an ultrasound imaging probe configured to acquire image data associated with an object at an acquisition data rate; and a communication interface in communication with the ultrasound imaging probe and configured to transmit a first subset of the image data in real time based on the acquisition data rate; and transmit a second subset of the image data at a delayed time. In one embodiment, a method of ultrasound imaging includes acquiring, by an ultrasound imaging probe, image data associated with an object at an acquisition data rate; transmitting, to a host via a communication link, a first subset of the image data in real time based on the acquisition data rate; and transmitting, to the host via the communication link, a second subset of the image data at a delayed time.Type: GrantFiled: March 29, 2018Date of Patent: June 7, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: William Robert Martin, McKee Dunn Poland
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Publication number: 20210085290Abstract: Ultrasound image devices, systems, and methods are provided. In one embodiment, an ultrasound imaging system includes an ultrasound imaging probe configured to acquire image data associated with an object at an acquisition data rate; and a communication interface in communication with the ultrasound imaging probe and configured to transmit a first subset of the image data in real time based on the acquisition data rate; and transmit a second subset of the image data at a delayed time. In one embodiment, a method of ultrasound imaging includes acquiring, by an ultrasound imaging probe, image data associated with an object at an acquisition data rate; transmitting, to a host via a communication link, a first subset of the image data in real time based on the acquisition data rate; and transmitting, to the host via the communication link, a second subset of the image data at a delayed time.Type: ApplicationFiled: March 29, 2018Publication date: March 25, 2021Inventors: William Robert Martin, McKee Dunn Poland
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Patent number: 10736611Abstract: An ultrasonic diagnostic imaging system is gated to acquire images at different phases of a physiological cycle such as the heartbeat. At each successive heart cycle a trigger actuates the acquisition of a continuous sequence of images, starting at a particular phase of the heart cycle and ending when the next heart cycle begins. Multiple triggers are used, each starting at a different phase of the heart cycle and each acquiring images at uniform temporal spacing. After the first trigger is used a sequence of images has been captured which are temporally evenly spaced over the heart cycle, and as successive triggers are used uniform temporal spacing is maintained as the heart cycle is filled in with additional images for replay of an image loop of phase re-ordered images at a high frame rate of display.Type: GrantFiled: January 31, 2014Date of Patent: August 11, 2020Assignee: Koninklijke Philips N.V.Inventors: Robert Joseph Schneider, David Prater, William Robert Martin, Scott William Dianis
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Publication number: 20200222025Abstract: A 3D ultrasonic diagnostic imaging system produces 3D display images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. In a preferred embodiment the determination of motion and the consequent decision to use interpolated or interleaved data for display is determined on a pixel-by-pixel basis.Type: ApplicationFiled: March 27, 2020Publication date: July 16, 2020Inventors: David Prater, Stephen P. Watkins, William Robert Martin
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Patent number: 10610192Abstract: A 3D ultrasonic diagnostic imaging system produces 3D display images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. In a preferred embodiment the determination of motion and the consequent decision to use interpolated or interleaved data for display is determined on a pixel-by pixel basis.Type: GrantFiled: April 25, 2011Date of Patent: April 7, 2020Assignee: Koninklijke Philips N.V.Inventors: David Prater, Stephen Watkins, William Robert Martin
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Patent number: 9687210Abstract: A 3D ultrasonic diagnostic imaging system produces 3D cardiac images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric cardiac region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. A sequence of different beam scanline patterns may be continuously repeated, or the patterns of the sequence synchronized with the cardiac phases such that, over a sequence of N heartbeats, the same respective phase is scanned by N different scanline patterns.Type: GrantFiled: April 25, 2011Date of Patent: June 27, 2017Assignee: KONINKLIJKE PHILIPES ELECTRONICS N.V.Inventors: David Prater, Stephen Watkins, William Robert Martin
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Publication number: 20160015367Abstract: An ultrasonic diagnostic imaging system is gated to acquire images at different phases of a physiological cycle such as the heartbeat. At each successive heart cycle a trigger actuates the acquisition of a continuous sequence of images, starting at a particular phase of the heart cycle and ending when the next heart cycle begins. Multiple triggers are used, each starting at a different phase of the heart cycle and each acquiring images at uniform temporal spacing. After the first trigger is used a sequence of images has been captured which are temporally evenly spaced over the heart cycle, and as successive triggers are used uniform temporal spacing is maintained as the heart cycle is filled in with additional images for replay of an image loop of phase re-ordered images at a high frame rate of display.Type: ApplicationFiled: January 31, 2014Publication date: January 21, 2016Inventors: ROBERT JOSEPH SCHNEIDER, DAVID PRATER, WILLIAM ROBERT MARTIN, SCOTT WILLIAM DIANIS
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Publication number: 20130066207Abstract: A 3D ultrasonic diagnostic imaging system produces 3D cardiac images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric cardiac region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. A sequence of different beam scanline patterns may be continuously repeated, or the patterns of the sequence synchronized with the cardiac phases such that, over a sequence of N heartbeats, the same respective phase is scanned by N different scanline patterns.Type: ApplicationFiled: April 25, 2011Publication date: March 14, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: David Prater, Stephen Watkins, William Robert Martin
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Publication number: 20130066206Abstract: A 3D ultrasonic diagnostic imaging system produces 3D display images at a 3D frame rate of display which is equal to the acquisition rate of a 3D image dataset. The volumetric region being imaged is sparsely sub-sampled by separated scanning beams. Spatial locations between the beams are filled in with interpolated values or interleaved with acquired data values from other 3D scanning intervals depending upon the existence of motion in the image field. A plurality of different beam scanning patterns are used, different ones of which have different spatial locations where beams are located and beams are omitted. In a preferred embodiment the determination of motion and the consequent decision to use interpolated or interleaved data for display is determined on a pixel-by pixel basis.Type: ApplicationFiled: April 25, 2011Publication date: March 14, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: David Prater, Stephen Watkins, William Robert Martin