Patents by Inventor Scott G. Johnston
Scott G. Johnston 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: 11914780Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: GrantFiled: August 11, 2022Date of Patent: February 27, 2024Assignee: Apple Inc.Inventors: Paul X Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston
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Patent number: 11722985Abstract: A system may include one or more processors and a host unit installed in a support structure of a building, the host unit including a communication module configured to send or receive communication data with at least one or more additional host units installed in the building, where the one or more processors are configured to measure an attribute of the sent or received communication data and detect a presence of an object based on a threshold change in the measured attribute of the sent or received communication data between the host unit and the one or more additional host units. The attribute can be an angle-of-signal (AoS) arrival of the communication between the host unit and each of the one or more additional host units, where the threshold change in the measured attribute is a threshold change in the measured AoS arrival.Type: GrantFiled: March 22, 2019Date of Patent: August 8, 2023Assignee: APPLE INC.Inventors: Travis J. McQueen, Clark Della Silva, Scott G. Johnston, Wade R. Barnett, Christopher Merrill, Jay C. Couch
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Patent number: 11682278Abstract: In some embodiments, a data-secure sensor system includes one or more processors configured to receive sensor data (e.g., image data, audio data, etc.) and generate descriptive data based on the sensor data that corresponds to a physical area that corresponds to information about identified objects or activity in physical area, an input/output (I/O) port, and an I/O choke communicatively coupled between the one or more processors and the I/O port, the I/O choke configured to limit a communication bandwidth of the I/O port to a maximum data rate. The one or more processors can be configured to prevent the sensor data from being accessible via any external port of the data-secure camera system, including the I/O port, and allow the descriptive data to be accessible via the I/O port.Type: GrantFiled: July 15, 2020Date of Patent: June 20, 2023Assignee: APPLE INC.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, William Burchill, Joseph Hakim, Bernd Adler
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Publication number: 20220382376Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: ApplicationFiled: August 11, 2022Publication date: December 1, 2022Inventors: Paul X. Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston
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Patent number: 11423750Abstract: In some embodiments, a data-secure sensor system includes one or more processors configured to receive sensor data (e.g., image data, audio data, etc.) and generate descriptive data based on the sensor data that corresponds to a physical area that corresponds to information about identified objects or activity in physical area, an input/output (I/O) port, and an I/O choke communicatively coupled between the one or more processors and the I/O port, the I/O choke configured to limit a communication bandwidth of the I/O port to a maximum data rate. The one or more processors can be configured to prevent the sensor data from being accessible via any external port of the data-secure camera system, including the I/O port, and allow the descriptive data to be accessible via the I/O port.Type: GrantFiled: July 15, 2020Date of Patent: August 23, 2022Assignee: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, William Burchill, Joseph Hakim, Bernd Adler
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Patent number: 11416076Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: GrantFiled: November 10, 2020Date of Patent: August 16, 2022Assignee: Apple Inc.Inventors: Paul X. Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston
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Patent number: 10951434Abstract: A modular host system may include one or more processors and a host unit installed in a support structure of a building. The host unit can be configured to receive and house an accessory (e.g., modular accessory) and electrically couple to an electrical source. The host unit can include a power gating module configured to couple electrical power from the electrical source to the accessory, and a communication module configured to communicate with one or more additional host units installed in the building. The one or more processors may be configured to determine a distance between the host unit and each of the one or more additional host units based on the communication with the one or more additional host units, and determine a floor plan of the building based at least on a distance from the host unit to each the one or more additional host units.Type: GrantFiled: March 19, 2019Date of Patent: March 16, 2021Assignee: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, Trevor McQueen
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Publication number: 20210055799Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: ApplicationFiled: November 10, 2020Publication date: February 25, 2021Inventors: Paul X. Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston
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Publication number: 20200365000Abstract: In some embodiments, a data-secure sensor system includes one or more processors configured to receive sensor data (e.g., image data, audio data, etc.) and generate descriptive data based on the sensor data that corresponds to a physical area that corresponds to information about identified objects or activity in physical area, an input/output (I/O) port, and an I/O choke communicatively coupled between the one or more processors and the I/O port, the I/O choke configured to limit a communication bandwidth of the I/O port to a maximum data rate. The one or more processors can be configured to prevent the sensor data from being accessible via any external port of the data-secure camera system, including the I/O port, and allow the descriptive data to be accessible via the I/O port.Type: ApplicationFiled: July 15, 2020Publication date: November 19, 2020Applicant: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, William Burchill, Joseph Hakim, Bernd Adler
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Patent number: 10838499Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: GrantFiled: June 21, 2018Date of Patent: November 17, 2020Assignee: Apple Inc.Inventors: Paul X. Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston
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Publication number: 20200301378Abstract: In some embodiments, a method comprises receiving floor plan data corresponding to at least one of a location, dimensions, or orientation of one or more walls defining at least one room of a building; receiving sensor data corresponding to detected activity within the at least one room of the building; determining a type of the at least one room of the building based on the detected activity; and modifying the floor plan data to include the determined type of the at least one of the one or more rooms, wherein a visual representation of the floor plan data is operable to be output on a display device. The method can further include determining an area of the at least one room of the building, where determining the type of the at least one room can be further based on the area of the at least one room.Type: ApplicationFiled: March 22, 2019Publication date: September 24, 2020Applicant: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, Christopher Merrill, Jay C. Couch
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Patent number: 10762755Abstract: In some embodiments, a data-secure sensor system includes one or more processors configured to receive sensor data (e.g., image data, audio data, etc.) and generate descriptive data based on the sensor data that corresponds to a physical area that corresponds to information about identified objects or activity in physical area, an input/output (I/O) port, and an I/O choke communicatively coupled between the one or more processors and the I/O port, the I/O choke configured to limit a communication bandwidth of the I/O port to a maximum data rate. The one or more processors can be configured to prevent the sensor data from being accessible via any external port of the data-secure camera system, including the I/O port, and allow the descriptive data to be accessible via the I/O port.Type: GrantFiled: March 20, 2019Date of Patent: September 1, 2020Assignee: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, William Burchill, Joseph Hakim, Bernd Adler
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Publication number: 20200053689Abstract: A system may include one or more processors and a host unit installed in a support structure of a building, the host unit including a communication module configured to send or receive communication data with at least one or more additional host units installed in the building, where the one or more processors are configured to measure an attribute of the sent or received communication data and detect a presence of an object based on a threshold change in the measured attribute of the sent or received communication data between the host unit and the one or more additional host units. The attribute can be an angle-of-signal (AoS) arrival of the communication between the host unit and each of the one or more additional host units, where the threshold change in the measured attribute is a threshold change in the measured AoS arrival.Type: ApplicationFiled: March 22, 2019Publication date: February 13, 2020Applicant: Apple Inc.Inventors: Travis J. McQueen, Clark Della Silva, Scott G. Johnston, Wade R. Barnett, Christopher Merrill, Jay C. Couch
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Publication number: 20190371145Abstract: In some embodiments, a data-secure sensor system includes one or more processors configured to receive sensor data (e.g., image data, audio data, etc.) and generate descriptive data based on the sensor data that corresponds to a physical area that corresponds to information about identified objects or activity in physical area, an input/output (I/O) port, and an I/O choke communicatively coupled between the one or more processors and the I/O port, the I/O choke configured to limit a communication bandwidth of the I/O port to a maximum data rate. The one or more processors can be configured to prevent the sensor data from being accessible via any external port of the data-secure camera system, including the I/O port, and allow the descriptive data to be accessible via the I/O port.Type: ApplicationFiled: March 20, 2019Publication date: December 5, 2019Applicant: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, William Burchill, Joseph Hakim, Bernd Adler
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Publication number: 20190296506Abstract: A modular host system may include one or more processors and a host unit installed in a support structure of a building. The host unit can be configured to receive and house an accessory (e.g., modular accessory) and electrically couple to an electrical source. The host unit can include a power gating module configured to couple electrical power from the electrical source to the accessory, and a communication module configured to communicate with one or more additional host units installed in the building. The one or more processors may be configured to determine a distance between the host unit and each of the one or more additional host units based on the communication with the one or more additional host units, and determine a floor plan of the building based at least on a distance from the host unit to each the one or more additional host units.Type: ApplicationFiled: March 19, 2019Publication date: September 26, 2019Applicant: Apple Inc.Inventors: Travis McQueen, Clark Della Silva, Scott G. Johnston, Wade Barnett, Trevor McQueen
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Publication number: 20190004604Abstract: A finger-mounted device may include finger-mounted units. The finger-mounted units may each have a body that serves as a support structure for components such as force sensors, accelerometers, and other sensors and for haptic output devices. The body may have sidewall portions coupled by a portion that rests adjacent to a user's fingernail. The body may be formed from deformable material such as metal or may be formed from adjustable structures such as sliding body portions that are coupled to each other using magnetic attraction, springs, or other structures. The body of each finger-mounted unit may have a U-shaped cross-sectional profile that leaves the finger pad of each finger exposed when the body is coupled to a fingertip of a user's finger. Control circuitry may gather finger press input, lateral finger movement input, and finger tap input using the sensors and may provide haptic output using the haptic output device.Type: ApplicationFiled: June 21, 2018Publication date: January 3, 2019Inventors: Paul X. Wang, Alex J. Lehmann, Michael J. Rockwell, Michael Y. Cheung, Ray L. Chang, Hongcheng Sun, Ian M. Bullock, Kyle J. Nekimken, Madeleine S. Cordier, Seung Wook Kim, David H. Bloom, Scott G. Johnston