Patents by Inventor Luc Francois
Luc Francois 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: 11457897Abstract: An ultrasound imaging system (1) comprises an ultrasound transducer array (100) comprising a plurality of ultrasound transducer tiles (101a-d), each of said tiles having an independently adjustable orientation such as to conform an ultrasound transmitting surface to a region of a body (50) including a foreign object such as a pacemaker, a stent, or an interventional tool (200). Using a known spatial arrangement of a plurality of features (201-204) of the foreign object (200), the respective ultrasound images generated by the ultrasound transducer tiles are registered in order to generate a composite image, in which the position and orientation of the foreign object in the individual images is superimposed. The position and orientation of an interventional tool may be determined for each image using object recognition algorithms or using acoustic feedback information provided by at least three ultrasound sensors (201-204) arranged in a known spatial arrangement on the interventional tool.Type: GrantFiled: September 20, 2017Date of Patent: October 4, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Shyam Bharat, Ramon Quido Erkamp, Man Nguyen, Jun Seob Shin, Jean-Luc Francois-Marie Robert
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Publication number: 20220280138Abstract: An ultrasound system produces maps of acoustic attenuation coefficients from B mode image signals. A plurality of maps located in different parallel and elevationally separated planes (A, B, C, D, E) are produced, then compounded in the elevation direction. Confidence maps may also be produced for one or more attenuation coefficient maps, and the confidence map displayed or its measures used to determine weighting for the compounding process. The compounding of elevationally separate planes improves attenuation coefficient estimation in the presence of blood vessels affecting the estimates in one or more of the planes.Type: ApplicationFiled: July 29, 2020Publication date: September 8, 2022Inventors: Sheng-Wen Huang, Hua Xie, Man Nguyen, Jean-luc Francois-Marie Robert, William Tao Shi, Carolina Amador Carrascal, Vijay Thakur Shamdasani
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Patent number: 11435459Abstract: The invention provides a method for generating a filtered ultrasound image. The method begins by obtaining channel data. First and second apodization functions are applied to the channel data to generate first (610) and second (620) image data, respectively. A minimization function is then applied to the first (610) and second (620) image data, which may then be used to generate third (630) image data. The filtered ultrasound image may then be generated based on the first (610) and third (630) image data.Type: GrantFiled: March 13, 2018Date of Patent: September 6, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Jun Soeb Shin, Seungsoo Kim, Francois Guy Gerard Marie Vignon, Sheng-Wen Huang, Jean-Luc Francois-Marie Robert
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Patent number: 11432804Abstract: The invention provides methods and systems for generating an ultrasound image. In a method, the generation of an ultrasound image comprises: obtaining channel data, the channel data defining a set of imaged points; for each imaged point: isolating the channel data; performing a spectral estimation on the isolated channel data; and selectively attenuating the spectral estimation channel data, thereby generating filtered channel data; and summing the filtered channel data, thereby forming a filtered ultrasound image. In some examples, the method comprises aperture extrapolation. The aperture extrapolation improves the lateral resolution of the ultrasound image. In other examples, the method comprises transmit extrapolation. The transmit extrapolation improves the contrast of the image. In addition, the transmit extrapolation improves the frame rate and reduces the motion artifacts in the ultrasound image. In further examples, the aperture and transmit extrapolations may be combined.Type: GrantFiled: June 11, 2018Date of Patent: September 6, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Jun Seob Shin, Francois Guy Gerard Marie Vignon, Man Nguyen, Jean-Luc Francois-Marie Robert
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Patent number: 11391828Abstract: A method is provided for filtering ultrasound image clutter. In the first stage of the method a data matrix is captured, wherein the data matrix contains information relating to the image, and singular value decomposition (SVD) is performed on the data matrix or a matrix derived from the data matrix. A spatial singular vector is then obtained from the SVD of the data matrix and a mean spatial frequency is estimated from them. A filtered data matrix is constructed based on the estimated mean spatial frequency and the SVD of the data matrix and a filtered image is constructed based on the filtered data matrix.Type: GrantFiled: November 27, 2017Date of Patent: July 19, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Francois Guy Gerard Marie Vignon, Jun Seob Shin, Sheng-Wen Huang, Jean-Luc Francois-Marie Robert
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Publication number: 20220206129Abstract: Systems and methods for encoding radiofrequency, RF, data, e.g., electrical signals, by a microbeamformer are disclosed herein. The microbeamformer may use a pseudo-random sampling pattern (700) to sum samples of the RF data stored in a plurality of memory cells. The memory cells may be included in a delay line of the microbeamformer in some examples. The summed samples may form an encoded signal transmitted to a decoder which reconstructs the original RF data from the encoded signal. The decoder may use knowledge of the pseudo-random sampling pattern to reconstruct the original data in some examples.Type: ApplicationFiled: April 30, 2020Publication date: June 30, 2022Inventors: GREGORY TSIANG ELY, FAIK CAN MERAL, JEAN-LUC FRANCOIS-MARIE ROBERT
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Publication number: 20220202396Abstract: Systems, methods, and apparatuses for confidence mapping of shear wave measurements are disclosed. Confidence maps of shear wave image measurements may be generated from one or more confidence factors. Masking of graphical overlays of tissue stiffness values, based at least in part on the confidence map is disclosed. The confidence map and/or masked graphical overlays of tissue stiffness values may be superimposed on ultrasound images and provided on a display.Type: ApplicationFiled: March 18, 2022Publication date: June 30, 2022Inventors: Ji Cao, Lars Jonas Olsson, Vijay Thakur Shamdasani, David Wesley Clark, Hua Xie, Jean-Luc Francois-Marie Robert, Alexey Viktorovich Cherepakhin, Bruce Adrian Kincy
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Patent number: 11372094Abstract: An ultrasonic diagnostic imaging system acquires received beams of echo signals produced in response to a plurality of transmit events. The received beams are combined with refocusing to account for differences in receive beam to transmit event locations. The delays and weights used in the refocusing are supplemented with delays and weights which correct for reverberation artifacts. The received echo signals are processed to detect the presence of reverberation artifacts and a simulated transmission of reverberation signal components to virtual point sources in the image field is calculated. This simulation produces the delays and weights used for reverberation signal compensation, or estimated reverberation signals which can be subtracted from received echo signals to reduce reverberation artifacts.Type: GrantFiled: May 9, 2018Date of Patent: June 28, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Faik Can Meral, Francois Guy Gerard Marie Vignon, Jean-Luc Francois-Marie Robert
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Patent number: 11346929Abstract: A method in accordance with the present disclosure may include transmitting a plurality of ultrasound pulses toward a medium from a transducer array, wherein the plurality of ultrasound pulses includes a sequence of a Doppler burst (10-1, 10-2) comprising a plurality of unfocused first pulses (12) and a B-mode burst comprising one or more second pulses (13). The method may further include detecting echoes responsive to the transmitted sequence, wherein the detecting includes simultaneously detecting, within a field of view, FOV, of the array, a set (14-1, 14-2) of first echoes responsive to the plurality of unfocused first pulses (12), generating Doppler data from signals representative of the set (14-1, 14-2) of first echoes, generating B-mode image data from signals representative of echoes responsive to the one or more second pulses (13), and simultaneously displaying the Doppler data and B-mode image data.Type: GrantFiled: January 16, 2018Date of Patent: May 31, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Francois Guy Gerard Marie Vignon, Bo Zhang, Jean-Luc Francois-Marie Robert
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Patent number: 11334974Abstract: Systems, methods, and apparatuses for reducing or eliminating reverberation artifacts in images are disclosed. Systems including one or more ultrasound probes are disclosed. Apparatuses for providing registration information for an ultrasound probe or probes at different positions are disclosed. A method of combining volume images acquired at different positions to reduce or eliminate reverberation artifacts is disclosed.Type: GrantFiled: August 10, 2018Date of Patent: May 17, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Shougang Wang, Jean-Luc Francois-Marie Robert, Hong Liu, Franciscus Hendrikus Van Heesch, Gerardus Henricus Maria Gijsbers, John Edward Dean, Evgeniy Leyvi
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Patent number: 11304678Abstract: Systems, methods, and apparatuses for confidence mapping of shear wave measurements are disclosed. Confidence maps of shear wave image measurements may be generated from one or more confidence factors. Masking of graphical overlays of tissue stiffness values, based at least in part on the confidence map is disclosed. The confidence map and/or masked graphical overlays of tissue stiffness values may be superimposed on ultrasound images and provided on a display.Type: GrantFiled: January 9, 2018Date of Patent: April 19, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Ji Cao, Lars Jonas Olsson, Vijay Thakur Shamdasani, David Wesley Clark, Hua Xie, Jean-Luc Francois-Marie Robert, Alexey Viktorovich Cherepakhin, Bruce Adrian Kincy
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Patent number: 11304679Abstract: Ultrasound image devices, systems, and methods are provided. In one embodiment, an ultrasound imaging system includes an interface coupled to an ultrasound imaging component and configured to receive a plurality of image data frames representative of a target tissue; and a processing component in communication with the interface and configured to determine a delay profile for the ultrasound imaging component in relation to the target tissue based on the plurality of image data frames; and determine a phase aberration correction configuration for a sequence of one or more shear wave pulses based on the delay profile, the sequence of one or more shear wave pulses associated with the ultrasound imaging component and a stiffness measure of the target tissue.Type: GrantFiled: September 7, 2017Date of Patent: April 19, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Hua Xie, Sheng-Wen Huang, Jean-Luc Francois-Marie Robert, Man Nguyen, Vijay Thakur Shamdasani
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ULTRASOUND IMAGING WITH DEEP LEARNING-BASED BEAMFORMING AND ASSOCIATED DEVICES, SYSTEMS, AND METHODS
Publication number: 20220096054Abstract: Ultrasound image devices, systems, and methods are provided. An ultrasound imaging system, comprising an array of acoustic elements configured to transmit ultrasound energy into an anatomy and to receive ultrasound echoes associated with the anatomy; and a processor circuit in communication with the array of acoustic elements and configured to receive, from the array, ultrasound channel data corresponding to the received ultrasound echoes; normalize the ultrasound channel data by applying a first scaling function to the ultrasound channel data; generate beamformed data by applying a predictive network to the normalized ultrasound channel data; de-normalize the beamformed data by applying a second scaling function to the beamformed data; generate an image of the anatomy from the beamformed data; and output, to a display in communication with the processor circuit, the image of the anatomy.Type: ApplicationFiled: February 10, 2020Publication date: March 31, 2022Inventors: Francois Guy Gerard Marie VIGNON, Muhammad Usman GHANI, Jun Seob SHIN, Faik Can MERAL, Sheng-wen HUANG, Jean-Luc Francois-Marie ROBERT -
Publication number: 20220087653Abstract: An ultrasound system produces maps of acoustic attenuation coefficients from pulse echo signals. Maps are produced using different attenuation coefficient or slope estimation methods, and a plurality of maps from different estimation methods are compounded to produce a final attenuation coefficient map. Confidence maps may also be produced for one or more attenuation coefficient maps, and the confidence map displayed or its measures used to determine weighting for the compounding process.Type: ApplicationFiled: January 20, 2020Publication date: March 24, 2022Inventors: SHENG-WEN HUANG, HUA XIE, MAN M. NGUYEN, CAROLINA AMADOR CARRASCAL, JEAN-LUC FRANCOIS-MARIE ROBERT, VIJAY THAKUR SHAMDASANI
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Patent number: 11276167Abstract: An image data processing method is for registering two four-dimensional image data sets, each representative of a time-series of three-dimensional image frames. The method comprises an initial pre-registration step in which 3D image frames of the two image data sets are rotated and translated (16) relative to one another so as to bring into alignment respective dominant motion vectors identified (14) for each, the dominant motion vector being a 3D motion vector representative of motion of an identified three-dimensional sub-region exhibiting maximal spatial displacement over course of the time series.Type: GrantFiled: November 20, 2018Date of Patent: March 15, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Hong Liu, Gerardus Henricus Maria Gijsbers, Jean-Luc Francois-Marie Robert
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Patent number: 11224410Abstract: The invention provides a method for generating an ultrasound image. The method includes obtaining ultrasound data from an ultrasonic transducer array, the ultrasonic transducer array having M transducer elements. The method further includes generating N sets of image data from the ultrasound data using N random apodization functions. A minimizing function is then applied to a collection of image data, wherein the collection of image data comprises the N sets of image data. An ultrasound image is then generated based on the minimized image data.Type: GrantFiled: April 24, 2018Date of Patent: January 18, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Jun Seob Shin, Seungsoo Kim, Francois Guy Gerard Marie Vignon, Sheng-Wen Huang, Jean-Luc Francois-Marie Robert
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Publication number: 20210361262Abstract: The present disclosure describes ultrasound systems and methods configured to determine stiffness levels of anisotropic tissue. Systems can include an ultrasound transducer configured to acquire echoes responsive to ultrasound pulses transmitted toward anisotropic tissue having an angular orientation with respect to a nominal axial direction of the transducer. Systems can also include a beamformer configured to control the transducer to transmit a push pulse along a steering angle for generating a shear wave in the anisotropic tissue. The steering angle can be based on the angular orientation of the tissue. The transducer can also be controlled to transmit tracking pulses. Systems can also include a processor configured to store tracking line echo data generated from echo signals received at the transducer. In response to the echo data, the processor can detect motion within the tissue caused by propagation of the shear wave and measure the velocity of the shear wave.Type: ApplicationFiled: February 9, 2019Publication date: November 25, 2021Inventors: HUA XI, MAN NGUYEN, SHENG-WEN HUANG, CAROLINA AMADOR CARRASCAL, VIJAY THAKUR SHAMDASANI, JEAN-LUC FRANCOIS-MARIE ROBERT
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Publication number: 20210338209Abstract: An ultrasound system produces high quality images at a high framerate of display. A plane or volume to be imaged is scanned by different diverging transmit beams to acquire a series of different sub-frames, the number of sub-frame acquisitions comprising a total number of transmit beams which would produce a high quality image. The echoes received in response to the transmit beams of a sub-frame are coherently combined with the echoes received in other sub-frames. Each time the echoes of a new sub-frame have been coherently combined with the echoes of all other different sub-frames, a full image is produced. After a complete series of sub-frames has been received and the echoes combined, another series of sub-frame acquisition is commenced and a new series of sub-frames acquired. As each new sub-frame is acquired, it is coherently combined with all the other different and most recently acquired sub-frames.Type: ApplicationFiled: September 5, 2019Publication date: November 4, 2021Inventors: Jean-Luc Francois-Marie ROBERT, Francois Guy Gerard Marie VIGNON, Shiying WANG, Jun Seob SHIN, Man NGUYEN, Faik Can MERAL
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Publication number: 20210338208Abstract: An ultrasound system produces 3D images at a high framerate of display. A volumetric region is scanned with plane wave or diverging transmit beams to insonify a large part of or even the entire volumetric region with each transmit event. To avoid the acquisition of clutter signals in the azimuth and elevation dimensions, the plane waves or diverging beams are transmitted at angles intermediate the elevation and azimuth directions. By transmitting plane waves or diverging beams at multiple different angles which are each a combination of both the elevation and azimuth directions, sidelobe clutter is reduced in the resulting compounded images.Type: ApplicationFiled: September 4, 2019Publication date: November 4, 2021Inventors: MAN NGUYEN, JEAN-LUC FRANCOIS-MARIE ROBERT
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Publication number: 20210265042Abstract: Ultrasound imaging devices, systems, and methods are provided. In one embodiment, an ultrasound imaging system comprising a processor configured to receive ultrasound channel data representative of a subject's anatomy generated from an ultrasound transducer; apply a predictive network to the ultrasound channel data to generate an image of the subjects anatomy; and output, to a display in communication with the processor, the image of the subjects anatomy. In one embodiment, a system for generating an image, the system comprising a memory storing at least one machine learning network; and a processor in communication with the memory, the processor configured to receive raw channel data generated from an ultrasound transducer; apply the machine learning network to the raw channel data to replace one or more image processing steps, thereby generating modified data; and generate an image using the modified data.Type: ApplicationFiled: July 19, 2019Publication date: August 26, 2021Inventors: Seungsoo Kim, Jun Seob Shin, Francois Guy Gerard Marie Vignon, Jean-Luc Francois-Marie Robert