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公开(公告)号:US20240161542A1
公开(公告)日:2024-05-16
申请号:US18487855
申请日:2023-10-16
Applicant: Google LLC
Inventor: Alok Chandel , Leonardo Giusti , Artur Tsurkan , Selim Flavio Cinek , Johan Prag , Tyler Reed Kugler , Lucas Dupin Moreira Costa , Vignesh Sachidanandam , Brandon Barbello
CPC classification number: G06V40/172 , G01S7/415 , G06T7/50 , G06V40/171 , H04N5/33 , G01P15/00 , G06T2207/10028
Abstract: This document describes techniques and systems for authentication management through IMU and radar. The techniques and systems use inertial sensor data from an inertial measurement unit (IMU) and/or radar data to manage authentication for a computing device. By so doing, the techniques conserve power, improve accuracy, or reduce latency relative to many common techniques and systems for computing-device authentication.
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公开(公告)号:US20240160346A1
公开(公告)日:2024-05-16
申请号:US18550663
申请日:2023-03-02
Applicant: Google LLC
Inventor: Rohan Ketan Shah , Yuan Hang Li , Arif Huda , JT DiMartile , Nicholas John Bearman , Selim Flavio Cinek , Shan Huang , Vadim René Marius Caen , Jonas Alon Naimark , Ian Lake , Jorim Dorian Jaggi
IPC: G06F3/04883 , G06F3/0483
CPC classification number: G06F3/04883 , G06F3/0483
Abstract: An example method includes, outputting, for display by a display device, a graphical user interface of an application executing at a computing device; responsive to receiving an indication of a start of a user input swipe gesture: outputting, for display by the display device and at least partially concealed by the scaled version of the graphical user interface of the application, a visual indication of a result of the user input swipe gesture: and responsive to receiving an indication of a commitment of the user input swipe gesture, outputting, for display by the display device, a graphical user interface that corresponds to the result of the user input swipe gesture.
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公开(公告)号:US20210223953A1
公开(公告)日:2021-07-22
申请号:US17224065
申请日:2021-04-06
Applicant: Google LLC
Inventor: Selim Flavio Cinek , Justin R. Barber , Allyson E. Tong , Daniel Park , William Levi Frohn , Madeleine Denise Mellor
IPC: G06F3/0488 , G06F3/0481 , G06F3/0482 , G06F9/451 , H04M19/04 , G06F3/0484 , H04L12/58 , H04W68/00 , H04M1/72472 , H04M1/72484
Abstract: A computing device is described that displays a set of graphical elements in a status bar of a graphical user interface. Each graphical element corresponds to a different pending notification. While expanding a notification shade from the status bar, the device displays the graphical elements within an area of the notification shade that is adjacent to a leading edge of the notification shade. Responsive to determining that a particular notification message is newly visible, the device removes, a particular graphical element that corresponds to the particular notification message, and displays the particular graphical element within the particular notification message. In this manner, interaction with the notification area may be more efficient, as during a process of expanding or contracting this area, the user may be informed the underlying state of the set of pending notifications as a whole.
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公开(公告)号:US11385722B2
公开(公告)日:2022-07-12
申请号:US16886626
申请日:2020-05-28
Applicant: Google LLC
Inventor: Jung Ook Hong , Patrick M. Amihood , John David Jacobs , Abel Seleshi Mengistu , Leonardo Giusti , Vignesh Sachidanandam , Devon James O'Reilley Stern , Ivan Poupyrev , Brandon Barbello , Tyler Reed Kugler , Johan Prag , Artur Tsurkan , Alok Chandel , Lucas Dupin Moreira Costa , Selim Flavio Cinek
Abstract: Systems and techniques are described for robust radar-based gesture-recognition. A radar system (104) detects radar-based gestures on behalf of application subscribers. A state machine (2000) transitions between multiple states based on inertial sensor data. A no-gating state (2002) enables the radar system (104) to output radar-based gestures to application subscribers. The state machine (2000) also includes a soft-gating state (2004) that prevents the radar system (104) from outputting the radar-based gestures to the application subscribers. A hard-gating state (2006) prevents the radar system (104) from detecting radar-based gestures altogether. The techniques and systems enable the radar system (104) to determine when not to perform gesture-recognition, enabling user equipment (102) to automatically reconfigure the radar system (104) to meet user demand. By so doing, the techniques conserve power, improve accuracy, or reduce latency relative to many common techniques and systems for radar-based gesture-recognition.
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Patent Agency Ranking
公开(公告)号:US11360192B2
公开(公告)日:2022-06-14
申请号:US16871945
申请日:2020-05-11
Applicant: Google LLC
Inventor: Alok Chandel , Leonardo Giusti , Artur Tsurkan , Selim Flavio Cinek , Johan Prag , Tyler Reed Kugler , Lucas Dupin Moreira Costa , Vignesh Sachidanandam , Brandon Barbello
IPC: G01S7/41 , G01S13/56 , G01S13/86 , G06F3/01 , G06F21/31 , G06F1/3231 , G06V40/20 , H04W52/00 , H04B1/3827
Abstract: This document describes techniques and systems for reducing a state based on sensor data from an Inertial Measurement Unit (IMU) and radar. The techniques and systems use inertial sensor data from an IMU as well as radar data to reduce states of a user equipment, such as power, access, and information states. These states represent power used, an amount of access permitted, or an amount of information provided by the user equipment. The techniques manage the user equipment's states to correspond to a user's engagement with the user equipment, which can save power, reduce unwarranted access, and reduce an amount of information provided when the user is not engaged with the user equipment, thereby protecting the user's privacy.
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公开(公告)号:US20210026454A1
公开(公告)日:2021-01-28
申请号:US16886626
申请日:2020-05-28
Applicant: Google LLC
Inventor: Jung Ook Hong , Patrick M. Amihood , John David Jacobs , Abel Seleshi Mengistu , Leonardo Giusti , Vignesh Sachidanandam , Devon James O'Reilley Stern , Ivan Poupyrev , Brandon Barbello , Tyler Reed Kugler , Johan Prag , Artur Tsurkan , Alok Chandel , Lucas Dupin Moreira Costa , Selim Flavio Cinek
Abstract: Systems and techniques are described for robust radar-based gesture-recognition. A radar system (104) detects radar-based gestures on behalf of application subscribers. A state machine (2000) transitions between multiple states based on inertial sensor data. A no-gating state (2002) enables the radar system (104) to output radar-based gestures to application subscribers. The state machine (2000) also includes a soft-gating state (2004) that prevents the radar system (104) from outputting the radar-based gestures to the application subscribers. A hard-gating state (2006) prevents the radar system (104) from detecting radar-based gestures altogether. The techniques and systems enable the radar system (104) to determine when not to perform gesture-recognition, enabling user equipment (102) to automatically reconfigure the radar system (104) to meet user demand. By so doing, the techniques conserve power, improve accuracy, or reduce latency relative to many common techniques and systems for radar-based gesture-recognition.
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公开(公告)号:USD855059S1
公开(公告)日:2019-07-30
申请号:US29639470
申请日:2018-03-06
Applicant: Google LLC
Designer: Selim Flavio Cinek , Remington Mcelhaney , Jorim Dorian Jaggi , Daniel Park
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公开(公告)号:US20240377941A1
公开(公告)日:2024-11-14
申请号:US18258757
申请日:2021-04-23
Applicant: Google LLC
Inventor: Nicholas John Bearman , JT DiMartile , Selim Flavio Cinek , Jorim Dorian Jaggi , Michel Comin Escude , Sebastian Johannes Bauer
IPC: G06F3/0485 , G06F3/0481
Abstract: Aspects of this disclosure are directed to techniques that enable a computing device to provide a visual indication that there is no additional content to scroll. When a user continues to perform a scroll gesture and scrolls to the end of the content and attempts to continue to scroll the content (i.e., overscrolls the content), a computing device configured in accordance with the techniques of this disclosure may visually stretch at least a portion of the displayed content. In various instances, the computing device may determine various characteristics of the scroll gesture, such as location on a presence-sensitive screen of the computing device, velocity, acceleration, duration, etc. Based on one or more of these scroll gesture characteristics, the computing device may determine a stretch ratio and may apply the stretch ratio to at least a portion of the displayed content.
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