TECHNOLOGIES FOR PRIVATELY PROCESSING VOICE DATA

    公开(公告)号:US20180096695A1

    公开(公告)日:2018-04-05

    申请号:US15283330

    申请日:2016-10-01

    CPC classification number: G10L21/00 G06F3/0482 G10L21/06

    Abstract: Technologies for privately processing voice data include a compute device configured to continually or periodically capture voice data of a user by the compute device. The captured voice data is processed to remove or reduce the user's privacy-sensitive information. For example, the compute device fragments the captured voice data to generate a set of voice data fragments and further scrambles the voice data fragments to generate scrambled voice data fragments having a sequential order different from the plurality of voice data fragments.

    RADAR APPARATUS, SYSTEM, AND METHOD
    2.
    发明公开

    公开(公告)号:US20230266452A1

    公开(公告)日:2023-08-24

    申请号:US17852619

    申请日:2022-06-29

    CPC classification number: G01S13/0209 G01S13/449 G01S13/931 G01S7/027

    Abstract: For example, a radar processor may include an input to receive radar Receive (Rx) information based on radar Rx signals received by a plurality of Radio Heads (RHs); and one or more Baseband (BB) Processing Units (BPUs) including a plurality of processing resources configured to generate radar information by processing the radar Rx information according to a plurality of BB-processing tasks. The one or more BPUs may be configured to allocate the plurality of processing resources to the plurality of RHs based on an RH to resource (RH-resource) allocation scheme. The RH-resource allocation scheme may be configured to define a plurality of RH-specific resource allocations for the plurality of RHs, respectively. For example, an RH-specific resource allocation for an RH may define a plurality of RH-allocated processing resources to perform the plurality of BB-processing tasks based on radar Rx information from the RH.

    Technologies for privately processing voice data using a repositioned reordered fragmentation of the voice data

    公开(公告)号:US10276177B2

    公开(公告)日:2019-04-30

    申请号:US15283330

    申请日:2016-10-01

    Abstract: Technologies for privately processing voice data include a compute device configured to continually or periodically capture voice data of a user by the compute device. The captured voice data is processed to remove or reduce the user's privacy-sensitive information. For example, the compute device fragments the captured voice data to generate a set of voice data fragments and further scrambles the voice data fragments to generate scrambled voice data fragments having a sequential order different from the plurality of voice data fragments. To scramble the voice data fragments, the compute device may reorder the voice data fragments such that each fragment is repositioned from its corresponding original sequential position in the voice data by a particular number of words, syllables, or phrases.

    RADAR APPARATUS, SYSTEM, AND METHOD

    公开(公告)号:US20250110209A1

    公开(公告)日:2025-04-03

    申请号:US18479011

    申请日:2023-09-30

    Abstract: For example, a radar Radio Head (RH) may be configured to determine Range-Doppler (RD) information corresponding to a plurality of RD bins based on digital radar Receive (Rx) signals representing radar Radio Frequency (RF) Rx signals received by one or more Rx antennas; to detect one or more detected RD bins based on the RD information; to provide filtered RD information including RD information corresponding to the one or more detected RD bins and excluding RD information of one or more excluded RD bins, which are not included in the one or more detected RD bins; and to send the filtered RD information to another processor via a communication interconnect.

    Crystal oscillator and electronic device using the crystal oscillator

    公开(公告)号:US11101771B2

    公开(公告)日:2021-08-24

    申请号:US16587113

    申请日:2019-09-30

    Abstract: A crystal oscillator is provided. The crystal oscillator includes a crystal resonator including a pair of terminals and being capable of oscillating at a fundamental resonance frequency and at least one overtone resonance frequency. Further, the crystal oscillator includes an inverter circuit coupled between the pair of terminals. The crystal oscillator additionally includes a suppression circuit configured to suppress oscillation of the crystal resonator at the fundamental resonance frequency. Further, the crystal oscillator includes a control circuit configured to control a switch circuit for selectively coupling the suppression circuit to the crystal resonator.

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