Patents by Inventor Shuangming Li
Shuangming Li 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: 12196675Abstract: Chips and metallic nanostructure biosensors comprising a dielectric substrate and discontinuous and disordered metallic nanostructures of flat island shapes thereon are disclosed herein. Also disclosed are methods of making and using the same.Type: GrantFiled: July 1, 2021Date of Patent: January 14, 2025Assignee: UNIVERSITY OF SOUTH FLORIDAInventors: Shuangming Li, Venkat R. Bhethanabotla
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Patent number: 12164690Abstract: One variation of a system for a touch sensor includes: a substrate; a cover layer; a spacer element; a second electrode; and a controller. The substrate includes: a support location arranged on the substrate; and a first electrode arranged proximal the support location. The cover layer defines a touch sensor surface arranged over the substrate. The spacer element: is coupled to the substrate at the support location; and yields to displacement of the substrate downward responsive to forces applied to the touch sensor surface. The second electrode: is arranged opposite the first electrode to define a nominal gap; and is configured to effect electrical values of the first electrode responsive to displacement of the substrate. The controller is configured to: read a set of electrical values from the first sense electrode; and interpret a first force magnitude of a first touch input based on the set of electrical values.Type: GrantFiled: June 8, 2023Date of Patent: December 10, 2024Assignee: Sensel, Inc.Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Shuangming Li, Ninad Sathe, Darren Lochun
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Publication number: 20240295928Abstract: One variation of a system includes a substrate including: a first layer including a first spiral trace coiled in a first direction; a second layer arranged below the first layer and including a second spiral trace coiled in a second direction and cooperating with the first spiral trace to form a multi-layer inductor; and a sensor layer including an array of drive and sense electrode pairs. The system also includes: a cover layer arranged over the substrate and defining a touch sensor surface; and a first magnetic element arranged below the substrate and defining a first polarity facing the multi-layer inductor. The system further includes a controller configured to drive an oscillating voltage across the multi-layer inductor to oscillate the substrate in response to detecting an input on the touch sensor surface based on electrical values from the set of drive and sense electrode pairs.Type: ApplicationFiled: March 8, 2024Publication date: September 5, 2024Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
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Publication number: 20240281083Abstract: A system includes: a substrate including an edge supported by a chassis; a first electrode spanning a first area of the substrate and arranged proximal a center of the substrate; and a second electrode spanning a second area, greater than the first area, on the substrate and interposed between the first electrode and the edge of the substrate. The system further includes a first coupling region: facing the first electrode; and electrically coupling to the first electrode to yield a first electrical value at the first electrode responsive to application of a first force magnitude proximal the center of the substrate. The system also includes a second coupling region: facing the second electrode; and electrically coupling to the second electrode to yield a second electrical value, approximating the first electrical value, at the second electrode responsive to application of the first force magnitude proximal the center of the substrate.Type: ApplicationFiled: March 15, 2024Publication date: August 22, 2024Inventors: Jacob Terracina, Ilya Daniel Rosenberg, Shuangming Li, Darren Lochun, Tomer Moscovich
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Publication number: 20240134490Abstract: Interpolation electrode patterning for capacitive-grid touch sensor is provided herein. Provided is a device that includes multiple column electrodes that include a first column electrode divided into a plurality of first column sub-electrodes and at least a second column electrode divided into a plurality of second column sub-electrodes. The first column electrode and the second column electrode are adjacent column electrodes. Further, first column sub-electrodes of the plurality of first column sub-electrodes are interleaved with second column sub-electrodes of the plurality of second column sub-electrodes in a first direction. A first layer of the device comprises the multiple column electrodes and a second layer of the device comprises the multiple row electrodes.Type: ApplicationFiled: December 27, 2023Publication date: April 25, 2024Inventors: Ilya Rosenberg, Shuangming Li, Darren Lochun
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Patent number: 11893192Abstract: Interpolation electrode patterning for capacitive-grid touch sensor is provided herein. Provided is a device that includes multiple column electrodes that include a first column electrode divided into a plurality of first column sub-electrodes and at least a second column electrode divided into a plurality of second column sub-electrodes. The first column electrode and the second column electrode are adjacent column electrodes. Further, first column sub-electrodes of the plurality of first column sub-electrodes are interleaved with second column sub-electrodes of the plurality of second column sub-electrodes in a first direction. A first layer of the device comprises the multiple column electrodes and a second layer of the device comprises the multiple row electrodes.Type: GrantFiled: November 12, 2021Date of Patent: February 6, 2024Assignee: Sensel, Inc.Inventors: Ilya Rosenberg, Shuangming Li, Darren Lochun
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Publication number: 20230384861Abstract: One variation of a system includes a substrate including: a first layer including a first spiral trace coiled in a first direction; a second layer arranged below the first layer and including a second spiral trace coiled in a second direction and cooperating with the first spiral trace to form a multi-layer inductor; and a sensor layer including an array of drive and sense electrode pairs. The system also includes: a cover layer arranged over the substrate and defining a touch sensor surface; and a first magnetic element arranged below the substrate and defining a first polarity facing the multi-layer inductor. The system further includes a controller configured to drive an oscillating voltage across the multi-layer inductor to oscillate the substrate in response to detecting an input on the touch sensor surface based on electrical values from the set of drive and sense electrode pairs.Type: ApplicationFiled: June 1, 2023Publication date: November 30, 2023Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
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Patent number: 11828726Abstract: Disclose herein is a portable platform based on a direct digital synthesizer (DDS) is investigated for the orthogonal SAW sensor, integrating signal synthesis, gain control, phase/amplitude measurement, and data processing in a small, portable electronic system. The disclosed platform allows for simultaneous removal of non-specific binding proteins, and mixing, as well as improved incubation time.Type: GrantFiled: November 14, 2022Date of Patent: November 28, 2023Assignee: UNIVERSITY OF SOUTH FLORIDAInventors: Venkat R. Bhethanabotla, Shuangming Li
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Publication number: 20230325033Abstract: A method for calibrating a touch sensor includes: at a calibration system during a calibration routine, applying a probe, at a target selection force, to a sequence of locations on a touch sensor surface of a touch sensor; at the touch sensor, capturing a sequence of touch images representing magnitudes of forces detected on the touch sensor surface during the calibration routine; fusing the sequence of touch images into a response map representing magnitudes of forces detected on the touch sensor surface by the touch sensor responsive to application of the target selection force on the touch sensor surface by the probe during the calibration routine; generating a force compensation map defining threshold forces for detecting selections at the target selection force on the touch sensor surface based on the response map.Type: ApplicationFiled: May 22, 2023Publication date: October 12, 2023Inventors: Tomer Moscovich, Scott Isaacson, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Samuel Palomino
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Publication number: 20230324995Abstract: One variation of a system for a touch sensor includes: a substrate; a cover layer; a spacer element; a second electrode; and a controller. The substrate includes: a support location arranged on the substrate; and a first electrode arranged proximal the support location. The cover layer defines a touch sensor surface arranged over the substrate. The spacer element: is coupled to the substrate at the support location; and yields to displacement of the substrate downward responsive to forces applied to the touch sensor surface. The second electrode: is arranged opposite the first electrode to define a nominal gap; and is configured to effect electrical values of the first electrode responsive to displacement of the substrate. The controller is configured to: read a set of electrical values from the first sense electrode; and interpret a first force magnitude of a first touch input based on the set of electrical values.Type: ApplicationFiled: June 8, 2023Publication date: October 12, 2023Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Shuangming Li, Ninad Sathe, Darren Lochun
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Publication number: 20230315214Abstract: One variation of a touch sensor system includes a set of touch layers: spanning a first area; and including a set of electrodes. The system further includes a set of inductor layers: arranged below the set of touch layers; spanning a second area less than the first area; and including a set of spiral traces defining an inductor. The system also includes a magnetic element arranged below the set of inductor layers and defining a first polarity facing the inductor. The system further includes a controller configured to: read a set of electrical values from the set of electrodes; interpret a force magnitude of a touch input based on the set of electrical values; and in response to the force magnitude exceeding a force magnitude, drive an oscillating voltage across the inductor to induce alternating magnetic coupling between the inductor and the magnetic element.Type: ApplicationFiled: June 5, 2023Publication date: October 5, 2023Inventors: Darren Lochun, Ilya Daniel Rosenberg, Shuangming Li, Ninad Sathe, Harsha Rao
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Publication number: 20230251740Abstract: One variation of a system includes: a frame; a sensor module; and a controller. The frame includes: a base structure that locates a display defining a front face of a device; and a lateral frame structure extending along and adjacent an edge of the display and supported on a side of the base structure. The base structure and the lateral frame structure cooperate to define a channel arranged behind the display and extending longitudinally between the lateral frame structure and the side of the base structure. The sensor module is arranged in the channel and includes: a substrate; and a linear array of sensors arranged on the substrate and outputting sense signals representing local deflections of the lateral frame structure. The controller detects locations and force magnitudes of side inputs on the device, proximal the edge of the display, based on sense signals output by the linear array of sensors.Type: ApplicationFiled: April 14, 2023Publication date: August 10, 2023Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, James Junus, Darren Lochun, Tomer Moscovich, Shuangming Li, Alexander Grau
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Patent number: 11703950Abstract: One variation of a system includes a substrate including: a first layer including a first spiral trace coiled in a first direction; a second layer arranged below the first layer and including a second spiral trace coiled in a second direction and cooperating with the first spiral trace to form a multi-layer inductor; and a sensor layer including an array of drive and sense electrode pairs. The system also includes: a cover layer arranged over the substrate and defining a touch sensor surface; and a first magnetic element arranged below the substrate and defining a first polarity facing the multi-layer inductor. The system further includes a controller configured to drive an oscillating voltage across the multi-layer inductor to oscillate the substrate in response to detecting an input on the touch sensor surface based on electrical values from the set of drive and sense electrode pairs.Type: GrantFiled: June 30, 2022Date of Patent: July 18, 2023Assignee: Sensel, Inc.Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
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Patent number: 11693520Abstract: A method for calibrating a touch sensor includes: at a calibration system during a calibration routine, applying a probe, at a target selection force, to a sequence of locations on a touch sensor surface of a touch sensor; at the touch sensor, capturing a sequence of touch images representing magnitudes of forces detected on the touch sensor surface during the calibration routine; fusing the sequence of touch images into a response map representing magnitudes of forces detected on the touch sensor surface by the touch sensor responsive to application of the target selection force on the touch sensor surface by the probe during the calibration routine; generating a force compensation map defining threshold forces for detecting selections at the target selection force on the touch sensor surface based on the response map.Type: GrantFiled: September 21, 2022Date of Patent: July 4, 2023Assignee: Sensel, Inc.Inventors: Tomer Daniel Moscovich, Scott Isaacson, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Samuel Palomino
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Patent number: 11656717Abstract: One variation of a system includes: a frame; a sensor module; and a controller. The frame includes: a base structure that locates a display defining a front face of a device; and a lateral frame structure extending along and adjacent an edge of the display and supported on a side of the base structure. The base structure and the lateral frame structure cooperate to define a channel arranged behind the display and extending longitudinally between the lateral frame structure and the side of the base structure. The sensor module is arranged in the channel and includes: a substrate; and a linear array of sensors arranged on the substrate and outputting sense signals representing local deflections of the lateral frame structure. The controller detects locations and force magnitudes of side inputs on the device, proximal the edge of the display, based on sense signals output by the linear array of sensors.Type: GrantFiled: April 18, 2022Date of Patent: May 23, 2023Assignee: Sensel, Inc.Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, James Junus, Darren Lochun, Tomer Moscovich, Shuangming Li, Alexander Grau
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Publication number: 20230079470Abstract: A method for calibrating a touch sensor includes: at a calibration system during a calibration routine, applying a probe, at a target selection force, to a sequence of locations on a touch sensor surface of a touch sensor; at the touch sensor, capturing a sequence of touch images representing magnitudes of forces detected on the touch sensor surface during the calibration routine; fusing the sequence of touch images into a response map representing magnitudes of forces detected on the touch sensor surface by the touch sensor responsive to application of the target selection force on the touch sensor surface by the probe during the calibration routine; generating a force compensation map defining threshold forces for detecting selections at the target selection force on the touch sensor surface based on the response map.Type: ApplicationFiled: September 21, 2022Publication date: March 16, 2023Inventors: Tomer Daniel Moscovich, Scott Isaacson, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Samuel Palomino
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Publication number: 20230070329Abstract: Disclose herein is a portable platform based on a direct digital synthesizer (DDS) is investigated for the orthogonal SAW sensor, integrating signal synthesis, gain control, phase/amplitude measurement, and data processing in a small, portable electronic system. The disclosed platform allows for simultaneous removal of non-specific binding proteins, and mixing, as well as improved incubation time.Type: ApplicationFiled: November 14, 2022Publication date: March 9, 2023Inventors: Venkat R. Bhethanabotla, Shuangming Li
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Publication number: 20220404930Abstract: Interpolation electrode patterning for capacitive-grid touch sensor is provided herein. Provided is a device that includes multiple column electrodes that include a first column electrode divided into a plurality of first column sub-electrodes and at least a second column electrode divided into a plurality of second column sub-electrodes. The first column electrode and the second column electrode are adjacent column electrodes. Further, first column sub-electrodes of the plurality of first column sub-electrodes are interleaved with second column sub-electrodes of the plurality of second column sub-electrodes in a first direction. A first layer of the device comprises the multiple column electrodes and a second layer of the device comprises the multiple row electrodes.Type: ApplicationFiled: November 12, 2021Publication date: December 22, 2022Inventors: Ilya Rosenberg, Shuangming Li, Darren Lochun
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Patent number: 11499943Abstract: Disclose herein is a portable platform based on a direct digital synthesizer (DDS) is investigated for the orthogonal SAW sensor, integrating signal synthesis, gain control, phase/amplitude measurement, and data processing in a small, portable electronic system. The disclosed platform allows for simultaneous removal of non-specific binding proteins, and mixing, as well as improved incubation time.Type: GrantFiled: November 21, 2019Date of Patent: November 15, 2022Assignee: UNIVERSITY OF SOUTH FLORIDAInventors: Venkat R. Bhethanabotla, Shuangming Li
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Patent number: 11494034Abstract: A method for calibrating a touch sensor includes: at a calibration system during a calibration routine, applying a probe, at a target selection force, to a sequence of locations on a touch sensor surface of a touch sensor; at the touch sensor, capturing a sequence of touch images representing magnitudes of forces detected on the touch sensor surface during the calibration routine; fusing the sequence of touch images into a response map representing magnitudes of forces detected on the touch sensor surface by the touch sensor responsive to application of the target selection force on the touch sensor surface by the probe during the calibration routine; generating a force compensation map defining threshold forces for detecting selections at the target selection force on the touch sensor surface based on the response map.Type: GrantFiled: December 17, 2021Date of Patent: November 8, 2022Assignee: Sensel, Inc.Inventors: Tomer Moscovich, Scott Isaacson, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Samuel Palomino