Patents by Inventor Bradley James Bozarth
Bradley James Bozarth 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: 11656718Abstract: The present invention relates to interpolated variable impedance touch sensor arrays for force-aware large-surface device interaction. An exemplary system for detecting a continuous pressure curve includes a plurality of physical variable impedance array (VIA) columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The system also includes a plurality of column drive sources connected to the interlinked impedance columns and to the plurality of physical VIA columns through the interlinked impedance columns as well as a plurality of row sense sinks connected to the interlinked impedance rows and to the plurality of physical VIA rows through the interlinked impedance rows. Further, the system includes a processor configured to interpolate the continuous pressure curve in the physical VIA columns and physical VIA rows from an electrical signal from the plurality of column drive sources sensed at the plurality of row sense sinks.Type: GrantFiled: April 22, 2021Date of Patent: May 23, 2023Assignee: 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
-
Patent number: 11614820Abstract: 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: GrantFiled: April 25, 2022Date of Patent: March 28, 2023Assignee: 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: 20230075139Abstract: 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 force-aware interaction with handheld display devices on one or more surfaces of the device. An exemplary embodiment includes a method for receiving a flexing gesture formed on a sensor panel of the handheld device including determining two or more pressure inputs at the sensor panel and determining a relative pressure between the two or more pressure inputs. The method further includes correlating the relative pressure inputs to the flexing gesture, associating the flexing gesture with a UI element and providing an input to the UI element based on the gesture and the relative pressure between the two or more pressure inputs.Type: ApplicationFiled: November 14, 2022Publication date: March 9, 2023Inventors: 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
-
Patent number: 11513648Abstract: 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 force-aware interaction with handheld display devices on one or more surfaces of the device. An exemplary embodiment includes a method for receiving a flexing gesture formed on a sensor panel of the handheld device including determining two or more pressure inputs at the sensor panel and determining a relative pressure between the two or more pressure inputs. The method further includes correlating the relative pressure inputs to the flexing gesture, associating the flexing gesture with a UI element and providing an input to the UI element based on the gesture and the relative pressure between the two or more pressure inputs.Type: GrantFiled: December 23, 2019Date of Patent: November 29, 2022Assignee: 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: 20220244828Abstract: 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: ApplicationFiled: April 25, 2022Publication date: August 4, 2022Inventors: 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
-
Patent number: 11353983Abstract: 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: GrantFiled: December 7, 2020Date of Patent: June 7, 2022Assignee: 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
-
Patent number: 11194415Abstract: The present invention relates to touch sensor systems and methods incorporating an interpolated variable impedance touch sensor array and specifically to such systems and methods for indirect force-aware touch control. An exemplary method for receiving an adjustment gesture formed on or about a plurality of sensor panels on a plurality of faces of a device includes detecting two or more touches at a first time at the plurality of sensor panels and determining that the touches at the first time are arranged in a pattern corresponding to a predetermined gesture. The method further includes determining a relative pressure between the touches, associating the gesture with a user interface element (that accepts an adjustment input based on the relative pressure between the two or more touches) and providing an input to the user interface element based on the gesture and relative pressure between the touches.Type: GrantFiled: December 23, 2019Date of Patent: December 7, 2021Assignee: 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: 20210240296Abstract: The present invention relates to interpolated variable impedance touch sensor arrays for force-aware large-surface device interaction. An exemplary system for detecting a continuous pressure curve includes a plurality of physical variable impedance array (VIA) columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The system also includes a plurality of column drive sources connected to the interlinked impedance columns and to the plurality of physical VIA columns through the interlinked impedance columns as well as a plurality of row sense sinks connected to the interlinked impedance rows and to the plurality of physical VIA rows through the interlinked impedance rows. Further, the system includes a processor configured to interpolate the continuous pressure curve in the physical VIA columns and physical VIA rows from an electrical signal from the plurality of column drive sources sensed at the plurality of row sense sinks.Type: ApplicationFiled: April 22, 2021Publication date: August 5, 2021Inventors: 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
-
Patent number: 10990223Abstract: The present invention relates to interpolated variable impedance touch sensor arrays for force-aware large-surface device interaction. An exemplary system for detecting a continuous pressure curve includes a plurality of physical variable impedance array (VIA) columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The system also includes a plurality of column drive sources connected to the interlinked impedance columns and to the plurality of physical VIA columns through the interlinked impedance columns as well as a plurality of row sense sinks connected to the interlinked impedance rows and to the plurality of physical VIA rows through the interlinked impedance rows. Further, the system includes a processor configured to interpolate the continuous pressure curve in the physical VIA columns and physical VIA rows from an electrical signal from the plurality of column drive sources sensed at the plurality of row sense sinks.Type: GrantFiled: July 23, 2019Date of Patent: April 27, 2021Assignee: 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: 20210089183Abstract: 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: ApplicationFiled: December 7, 2020Publication date: March 25, 2021Inventors: 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
-
Patent number: 10891050Abstract: The present invention relates to touch sensor detectors incorporating interpolated variable impedance touch sensor arrays and specifically to detectors for non-planar touch controls. Variable impedance touch sensor arrays are applied to the surface of objects, inside objects, or other objects such that touches are detected directly or indirectly from the non-planar touch controls. An exemplary system includes a plurality of sensor panels on a plurality of device and a processor communicatively coupled to the sensor panels. The sensor panels include a plurality of physical VIA columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The processor detects touches at a first time at the sensor panels, determines that the two or more touches at the first time are arranged in a pattern corresponding to a predetermined gesture, and determines a relative pressure between the two or more touches.Type: GrantFiled: September 12, 2019Date of Patent: January 12, 2021Assignee: 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
-
Patent number: 10871848Abstract: 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: GrantFiled: April 15, 2019Date of Patent: December 22, 2020Assignee: 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
-
Patent number: 10739880Abstract: Techniques for operating electronic paper displays of respective electronic devices are described. One set of techniques described below enhances user experience by utilizing multiple different waveform and/or display-update modes when rendering content on these displays. Another set of techniques are able to render lines on electronic paper displays having variable and arbitrary darkness, despite the restricted color depth inherent in these displays. In addition, this disclosure describes techniques for utilizing supersampling to select which shades to render on an electronic paper display of an electronic device. In still other implementations, the techniques described herein allocate a predefined frame rate of an electronic paper display between multiple different application components requesting to update the display, resulting smooth animation and relatively high-frame updates.Type: GrantFiled: June 4, 2018Date of Patent: August 11, 2020Assignee: Amazon Technologies, Inc.Inventors: Julien George Beguin, Bradley James Bozarth, Ilya D. Rosenberg, Jay Michael Puckett
-
Publication number: 20200218418Abstract: The present invention relates to touch sensor systems and methods incorporating an interpolated variable impedance touch sensor array and specifically to such systems and methods for indirect force-aware touch control. An exemplary method for receiving an adjustment gesture formed on or about a plurality of sensor panels on a plurality of faces of a device includes detecting two or more touches at a first time at the plurality of sensor panels and determining that the touches at the first time are arranged in a pattern corresponding to a predetermined gesture. The method further includes determining a relative pressure between the touches, associating the gesture with a user interface element (that accepts an adjustment input based on the relative pressure between the two or more touches) and providing an input to the user interface element based on the gesture and relative pressure between the touches.Type: ApplicationFiled: December 23, 2019Publication date: July 9, 2020Inventors: 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: 20200210026Abstract: 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 force-aware interaction with handheld display devices on one or more surfaces of the device. An exemplary embodiment includes a method for receiving a flexing gesture formed on a sensor panel of the handheld device including determining two or more pressure inputs at the sensor panel and determining a relative pressure between the two or more pressure inputs. The method further includes correlating the relative pressure inputs to the flexing gesture, associating the flexing gesture with a UI element and providing an input to the UI element based on the gesture and the relative pressure between the two or more pressure inputs.Type: ApplicationFiled: December 23, 2019Publication date: July 2, 2020Inventors: 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: 20200089400Abstract: The present invention relates to touch sensor detectors incorporating interpolated variable impedance touch sensor arrays and specifically to detectors for non-planar touch controls. Variable impedance touch sensor arrays are applied to the surface of objects, inside objects, or other objects such that touches are detected directly or indirectly from the non-planar touch controls. An exemplary system includes a plurality of sensor panels on a plurality of device and a processor communicatively coupled to the sensor panels. The sensor panels include a plurality of physical VIA columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The processor detects touches at a first time at the sensor panels, determines that the two or more touches at the first time are arranged in a pattern corresponding to a predetermined gesture, and determines a relative pressure between the two or more touches.Type: ApplicationFiled: September 12, 2019Publication date: March 19, 2020Inventors: 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: 20200089367Abstract: The present invention relates to interpolated variable impedance touch sensor arrays for force-aware large-surface device interaction. An exemplary system for detecting a continuous pressure curve includes a plurality of physical variable impedance array (VIA) columns connected by interlinked impedance columns and a plurality of physical VIA rows connected by interlinked impedance rows. The system also includes a plurality of column drive sources connected to the interlinked impedance columns and to the plurality of physical VIA columns through the interlinked impedance columns as well as a plurality of row sense sinks connected to the interlinked impedance rows and to the plurality of physical VIA rows through the interlinked impedance rows. Further, the system includes a processor configured to interpolate the continuous pressure curve in the physical VIA columns and physical VIA rows from an electrical signal from the plurality of column drive sources sensed at the plurality of row sense sinks.Type: ApplicationFiled: July 23, 2019Publication date: March 19, 2020Inventors: 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: 20200089383Abstract: 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: ApplicationFiled: April 15, 2019Publication date: March 19, 2020Inventors: 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
-
Patent number: 10296964Abstract: An effortless and automated reordering system includes a dedicated electronic device with a simple button interface that, upon depression of the button, initiates a process of ordering (or reordering) a product associated with the device and a button on that device. The electronic device may store in memory a device identifier and button identifiers for each button as the basis for order request information. The stored data may be communicated to a fulfillment service (e.g., an online merchant, fulfillment center, etc.) for order identification processing. In some cases, an application provided by the fulfillment service may be executed on a secondary management device to allow a user to configure the electronic device to map the buttons to different products, and even different vendors, to facilitate reconfigurable order management.Type: GrantFiled: August 26, 2014Date of Patent: May 21, 2019Assignee: Amazon Technologies, Inc.Inventors: Daniel Benjamin Rausch, Nagendra Bage Jayaraj, Bradley James Bozarth, Anna Kim Lee, Michael Martin Lee, Thomas Bruno Mader, Amir Pelleg, Laura Allison Ridlehoover, Richard David Young
-
Patent number: 9530381Abstract: In some examples, a display includes a plurality of pixels and a plurality of light sensors. As one example, a respective light sensor may be associated with each pixel. The light sensor output can provide an accurate indication of a current optical state of each of the plurality of pixels. For instance, output from a light sensor proximate to a particular pixel may be used when determining a pixel control signal to be applied for updating the particular pixel to a next optical state. The light sensors may be located below, above, laterally adjacent to, or within one or more pixel elements of each pixel. Additionally, in some examples, one or more light sources may be provided to normalize the output from the light sensors to compensate for variations in ambient lighting and the like.Type: GrantFiled: December 20, 2012Date of Patent: December 27, 2016Assignee: Amazon Technologies, Inc.Inventors: Bradley James Bozarth, Ilya Daniel Rosenberg, Thomas Bruno Mader