Patents by Inventor Daniel Rosenberg

Daniel Rosenberg 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: 11494034
    Abstract: 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: Grant
    Filed: December 17, 2021
    Date of Patent: November 8, 2022
    Assignee: Sensel, Inc.
    Inventors: Tomer Moscovich, Scott Isaacson, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Samuel Palomino
  • Publication number: 20220334645
    Abstract: 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: Application
    Filed: June 30, 2022
    Publication date: October 20, 2022
    Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
  • Publication number: 20220326829
    Abstract: One variation of a method for manipulating virtual objects within a virtual environment includes: determining a first position of a touch sensor within real space; based on the first position of the touch sensor within real space, bounding a virtual surface of a virtual object within the virtual environment tractable through inputs across the touch sensor; generating a first force vector comprising a magnitude related to a force magnitude of a first input on the touch sensor surface and a direction related to an orientation of the touch sensor within real space; locating an origin of the first force vector within the virtual environment based on a first location of the first input on the touch sensor surface and the first position of the touch sensor within real space; and manipulating the virtual surface of the virtual object within the virtual environment according to the first force vector.
    Type: Application
    Filed: June 17, 2022
    Publication date: October 13, 2022
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Alexander Meagher Grau, Charles Robert Watson
  • Publication number: 20220326800
    Abstract: One variation of a method includes: defining a first capacitance gradient of capacitance thresholds spanning a capacitive touch sensor; defining a first pressure gradient of pressure thresholds spanning a pressure sensor; reading a capacitance value from the capacitive touch sensor proximal a first location; detecting presence of a first input at the first location in response to the capacitance value exceeding a capacitance threshold assigned to the first location; reading a pressure value from the pressure sensor proximal the first location; detecting presence of a second input proximal the first location in response to the pressure value exceeding a pressure threshold; in response to detecting the first input and detecting the second input: merging the first input and the second input into a confirmed touch input; and generating a first touch image representing the first location and the pressure value of the confirmed touch input.
    Type: Application
    Filed: June 29, 2022
    Publication date: October 13, 2022
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga
  • Patent number: 11460926
    Abstract: 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: Grant
    Filed: July 5, 2021
    Date of Patent: October 4, 2022
    Assignee: Sensel, Inc.
    Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
  • Patent number: 11460924
    Abstract: One variation of a system for interfacing a computer system and a user includes: a touch sensor defining a touch sensor surface and extending over an array of sense electrode and drive electrode pairs; a vibrator coupled to the touch sensor surface; and a controller configured to: detect application of an input onto the touch sensor surface and a force magnitude of the first input at a first time; execute a down-click cycle in response to the force magnitude exceeding a threshold magnitude by driving the vibrator to oscillate the touch sensor surface; map a location of the input on the touch sensor surface to a key of a keyboard represented by the touch sensor surface; and output a touch image representing the key and the force magnitude of the input on the touch sensor surface at approximately the first time.
    Type: Grant
    Filed: February 24, 2021
    Date of Patent: October 4, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Tomer Moscovich
  • Patent number: 11435851
    Abstract: One variation of a method for characterizing inputs includes: scanning an array of sense electrodes at a first resolution to generate a first force image; detecting a first force input in the first force image; in response to a first geometry dimension of the first force input exceeding a first threshold, characterizing the first force input as a non-stylus input type; in response to the first geometry dimension of the first force input remaining below the first threshold: scanning the array of sense electrodes at a second resolution; detecting a second force input in a second force image; and, in response to a ratio of a force magnitude of the second force input to a geometry dimension of the second force input exceeding a second threshold, characterizing the first force input as a stylus input type; and outputting a location and a type of the first force input.
    Type: Grant
    Filed: June 21, 2021
    Date of Patent: September 6, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Tomer Moscovich
  • Patent number: 11420769
    Abstract: One variation of a tram system includes: a chassis; a latch configured to selectively engage a latch receiver mounted to an aircraft; an alignment feature adjacent the latch and configured to engage an alignment receiver mounted to the aircraft and to communicate acceleration and braking forces from the chassis into the aircraft; an optical sensor facing upwardly from the chassis; a drivetrain configured to accelerate and decelerate the chassis along a runway; and a controller configured to detect an optical fiducial arranged on the aircraft in optical images recorded by the optical sensor adjust a speed of the drivetrain to longitudinally align the alignment feature with the alignment receiver based on positions of the optical fiducial detected in the optical images, trigger the latch to engage the latch receiver once the aircraft has descended onto the chassis, and trigger the drivetrain to actively decelerate the chassis during a landing routine.
    Type: Grant
    Filed: September 30, 2020
    Date of Patent: August 23, 2022
    Inventor: Ilya Daniel Rosenberg
  • Patent number: 11422631
    Abstract: 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: Grant
    Filed: July 5, 2021
    Date of Patent: August 23, 2022
    Assignee: Sensel, Inc.
    Inventors: James Junus, Ninad Sathe, Shuangming Li, Ilya Daniel Rosenberg, John Aaron Zarraga, Eric Rosales
  • Patent number: 11409388
    Abstract: One variation of a method for interfacing a computer to a human includes: detecting application of a first input onto a touch sensor surface and a first force magnitude of the first input; in response to the first force magnitude exceeding a first threshold magnitude, actuating a vibrator coupled to the touch sensor surface during a first click cycle and triggering an audio driver proximal the touch sensor surface to output a click sound during the first click cycle; detecting retraction of the first input from the touch sensor surface and a second force magnitude of the first input; and, in response to the second force magnitude falling below a second threshold magnitude less than the first threshold magnitude, actuating the vibrator during a second click cycle distinct from the first click cycle and triggering the audio driver to output the click sound during the second click cycle.
    Type: Grant
    Filed: January 21, 2021
    Date of Patent: August 9, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Brogan Miller, Charles Watson, Tomer Moscovich, Alexander Grau
  • Patent number: 11409385
    Abstract: One variation of a method includes: defining a first capacitance gradient of capacitance thresholds spanning a capacitive touch sensor; defining a first pressure gradient of pressure thresholds spanning a pressure sensor; reading a capacitance value from the capacitive touch sensor proximal a first location; detecting presence of a first input at the first location in response to the capacitance value exceeding a capacitance threshold assigned to the first location; reading a pressure value from the pressure sensor proximal the first location; detecting presence of a second input proximal the first location in response to the pressure value exceeding a pressure threshold; in response to detecting the first input and detecting the second input: merging the first input and the second input into a confirmed touch input; and generating a first touch image representing the first location and the pressure value of the confirmed touch input.
    Type: Grant
    Filed: April 15, 2021
    Date of Patent: August 9, 2022
    Assignee: Sensei Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga
  • Publication number: 20220244828
    Abstract: The present invention relates to touch sensor detector systems and methods incorporating an interpolated variable impedance touch sensor array and specifically to such systems and methods for gesture recognition and associating a UI element with the recognized gesture. In one embodiment, the present invention provides a variable impedance array (VIA) system for receiving a gesture that includes: a plurality of physical VIA columns connected by interlinked impedance columns; a plurality of physical VIA rows connected by interlinked impedance rows; and a processor configured to interpolate a location and/or pressure of the gesture in the physical columns and rows from an electrical signal from a plurality of column drive sources (connected to the plurality of physical VIA columns through the interlinked impedance columns) sensed at a plurality of row sense sinks (connected to the plurality of physical VIA rows through the interlinked impedance rows).
    Type: Application
    Filed: April 25, 2022
    Publication date: August 4, 2022
    Inventors: John Aaron Zarraga, Alexander Meagher Grau, Bethany Noel Haniger, Bradley James Bozarth, Brogan Carl Miller, Ilya Daniel Rosenberg, James Frank Thomas, Mark Joshua Rosenberg, Peter Hans Nyboer, Reuben Eric Martinez, Scott Gregory Isaacson, Stephanie Jeanne Oberg, Timothy James Miller, Tomer Moscovich, Yibo Yu
  • Publication number: 20220236853
    Abstract: 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: Application
    Filed: April 18, 2022
    Publication date: July 28, 2022
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, James Junus, Darren Lochun, Tomer Moscovich, Shuangming Li, Alexander Grau
  • Patent number: 11370724
    Abstract: Catalytic forms and formulations are provided. The catalytic forms and formulations are useful in a variety of catalytic reactions, for example, the oxidative coupling of methane. Related methods for use and manufacture of the same are also disclosed.
    Type: Grant
    Filed: March 27, 2019
    Date of Patent: June 28, 2022
    Assignee: Lummus Technology LLC
    Inventors: Joel M. Cizeron, Fabio R. Zurcher, Jarod McCormick, Joel Gamoras, Roger Vogel, Joel David Vincent, Greg Nyce, Wayne P. Schammel, Erik C. Scher, Daniel Rosenberg, Erik-Jan Ras, Erik Freer
  • Patent number: 11360563
    Abstract: One variation of a system for detecting and responding to touch inputs with haptic feedback includes: a magnetic element rigidly coupled to a chassis; a substrate; a touch sensor interposed between the substrate and a touch sensor surface; an inductor coupled to the substrate below the touch sensor surface and configured to magnetically couple to the magnetic element; a coupler coupling the substrate to the chassis, compliant within a vibration plane approximately parallel to the touch sensor surface, and locating the inductor approximately over the magnetic element; and a controller configured to intermittently polarize the inductor responsive to detection of a touch input on the touch sensor surface to oscillate the substrate in the vibration plane relative to the chassis.
    Type: Grant
    Filed: November 6, 2020
    Date of Patent: June 14, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, Brogan Miller, John Aaron Zarraga, James Junus
  • Patent number: 11353983
    Abstract: The present invention relates to touch sensor detector systems and methods incorporating an interpolated variable impedance touch sensor array and specifically to such systems and methods for gesture recognition and associating a UI element with the recognized gesture. In one embodiment, the present invention provides a variable impedance array (VIA) system for receiving a gesture that includes: a plurality of physical VIA columns connected by interlinked impedance columns; a plurality of physical VIA rows connected by interlinked impedance rows; and a processor configured to interpolate a location and/or pressure of the gesture in the physical columns and rows from an electrical signal from a plurality of column drive sources (connected to the plurality of physical VIA columns through the interlinked impedance columns) sensed at a plurality of row sense sinks (connected to the plurality of physical VIA rows through the interlinked impedance rows).
    Type: Grant
    Filed: December 7, 2020
    Date of Patent: June 7, 2022
    Assignee: Sensel, Inc.
    Inventors: John Aaron Zarraga, Alexander Meagher Grau, Bethany Noel Haniger, Bradley James Bozarth, Brogan Carl Miller, Ilya Daniel Rosenberg, James Frank Thomas, Mark Joshua Rosenberg, Peter Hans Nyboer, Reuben Eric Martinez, Scott Gregory Isaacson, Stephanie Jeanne Oberg, Timothy James Miller, Tomer Moscovich, Yibo Yu
  • Publication number: 20220164102
    Abstract: One variation of a system for detecting inputs at a computing device includes: a substrate including a top layer, a bottom layer defining an array of support locations, and electrode pairs proximal the support locations; a touch sensor surface arranged over the top layer of the substrate; a set of spacers, each arranged over an electrode pair at a support location on the bottom layer of the substrate and including a force-sensitive material exhibiting variations in local bulk resistance responsive to variations in applied force; an array of spring elements coupled to the set of spacers, configured to support the substrate on a chassis, and configured to yield to displacement of the substrate downward toward the chassis responsive to forces applied to the touch sensor surface; and a controller configured to interpret forces of inputs on the touch sensor surface based on resistance values of the electrode pairs.
    Type: Application
    Filed: February 10, 2022
    Publication date: May 26, 2022
    Inventors: Ilya Daniel Rosenberg, Ninad Sathe, Eric Rosales
  • Patent number: 11334189
    Abstract: 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: Grant
    Filed: June 4, 2021
    Date of Patent: May 17, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, James Junus, Darren Lochun, Tomer Moscovich, Shuangming Li, Alexander Grau
  • Patent number: 11334190
    Abstract: One variation of a method for detecting an input at a touch sensor—including a force-sensitive layer exhibiting variations in local resistance responsive to local variations in applied force on a touch sensor surface and a set of drive and sense electrodes—includes: driving a drive electrode with a drive signal; reading a sense signal from a sense electrode; detecting a alternating-current component and a direct-current component of the sense signal; in response to a magnitude of the direct-current component of the sense signal falling below a threshold magnitude, detecting an input on the touch sensor surface during the scan cycle based on the alternating-current component of the sense signal; and, in response to the magnitude of the direct-current component of the sense signal exceeding the threshold magnitude, detecting the input on the touch sensor surface during the scan cycle based on the direct-current component of the sense signal.
    Type: Grant
    Filed: March 9, 2021
    Date of Patent: May 17, 2022
    Assignee: Sensel, Inc.
    Inventors: Ilya Daniel Rosenberg, John Aaron Zarraga, Vijay Rajanna, Tomer Moscovich
  • Publication number: 20220147246
    Abstract: One variation of a system for detecting inputs at a computing device includes: a substrate including top layer and bottom layers, an array of capacitance sensors arranged on the bottom layer, and an array of support locations adjacent the capacitance sensors; a touch sensor surface arranged over the top layer of the substrate; an array of spring elements coupled to the support locations, configured to couple the substrate to a chassis, and configured to yield to displacement of the substrate downward toward the chassis responsive to forces applied to the touch sensor surface; a coupling plate configured to couple to the chassis adjacent the spring elements and effect capacitance values of the capacitance sensors responsive to displacement of the substrate toward the coupling plate; and a controller configured to interpret force magnitudes of inputs on the touch sensor surface based on capacitance values of the capacitance sensors.
    Type: Application
    Filed: January 27, 2022
    Publication date: May 12, 2022
    Inventors: Ilya Daniel Rosenberg, Ninad Sathe, Eric Rosales