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    • 3. 发明授权
    • Method and system for optimized transfer of location database information
    • 用于优化位置数据库信息传输的方法和系统
    • US08774836B2
    • 2014-07-08
    • US12732973
    • 2010-03-26
    • Charles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid LundgrenDavid Murray
    • Charles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDavid LundgrenDavid Murray
    • H04W24/00H04M11/04
    • H04W64/003G01S5/0236G01S19/05H04W4/02H04W4/20H04W12/06H04W64/00
    • A servicing communication device may receive a subset of a location reference database that is maintained by a plurality of location servers, and may provide location related data to a mobile device that is communicatively coupled to the servicing communication device based on the received subset. The servicing communication device may determine capabilities and/or requirements of the mobile device, and may generate the location related data based on that determination. The servicing communication device may determine attributes and/or parameters that may affect determination of the subset of the location reference database. The subset of location reference database may be requested based on the determined attributes and/or parameters. The attributes and/or parameters may comprise a location of the servicing communication device. The servicing communication device may determine its location, directly based on GNSS transmissions and/or indirectly based on assisted GNSS (A-GNSS) data received from the plurality of location servers.
    • 服务通信设备可以接收由多个位置服务器维护的位置参考数据库的子集,并且可以基于所接收的子集向通信地耦合到服务通信设备的移动设备提供位置相关数据。 服务通信设备可以确定移动设备的能力和/或要求,并且可以基于该确定来生成位置相关数据。 服务通信设备可以确定可能影响位置参考数据库的子集的确定的属性和/或参数。 可以基于所确定的属性和/或参数来请求位置参考数据库的子集。 属性和/或参数可以包括服务通信设备的位置。 服务通信设备可以直接基于GNSS传输和/或间接地基于从多个位置服务器接收到的辅助GNSS(A-GNSS)数据来确定其位置。
    • 9. 发明申请
    • RF TRANSCEIVER WITH BEAMFORMING ANTENNA AND METHODS FOR USE THEREWITH
    • 射频收发器与波束形成天线及其使用方法
    • US20130109448A1
    • 2013-05-02
    • US13329302
    • 2011-12-18
    • David GarrettJun ZhengHamid Eslami
    • David GarrettJun ZhengHamid Eslami
    • H04W88/02
    • H04B7/0617H04B7/0623H04B7/0695
    • An RF transceiver includes a configuration controller that generates a control signal to select a first candidate radiation pattern for a beamforming antenna based on a first plurality of steering weights. An RF transceiver section broadcasts a first beacon transmission with the first candidate radiation pattern, and generates feedback signals to indicate if a first remote station has responded to the first beacon transmission. When the first remote station has responded to the first beacon transmission, the configuration controller stores the first plurality of steering weights used in association with the beacon transmission and generates control signals to the RF transceiver section to use the first candidate radiation pattern when communicating with the first remote station.
    • RF收发器包括配置控制器,其基于第一多个转向权重产生控制信号以选择用于波束成形天线的第一候选辐射图。 RF收发器部分利用第一候选辐射图广播第一信标传输,并且产生反馈信号以指示第一远程站是否响应于第一信标传输。 当第一远程站对第一信标传输作出响应时,配置控制器存储与信标传输相关联使用的第一多个转向权重,并且当与该收发器部分通信时产生控制信号到RF收发器部分以使用第一候选辐射模式 第一个远程站。
    • 10. 发明授权
    • Method and system for stabilizing a GNSS clock by reducing interference
    • 通过减少干扰来稳定GNSS时钟的方法和系统
    • US08305267B2
    • 2012-11-06
    • US12732665
    • 2010-03-26
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • David LundgrenCharles AbrahamMark BuerDavid GarrettJeyhan KaraoguzDave Murray
    • G01S19/23
    • G01S19/235H04B15/00
    • Methods and systems for stabilizing a GNSS clock by reducing interference are disclosed and may include stabilizing a frequency of a temperature compensated crystal oscillator (TCXO) on a chip in a GNSS device. A clock signal may be generated for the device by temporarily configuring circuitry adjacent to the TCXO at a constant power level. Temperature and electromagnetic interference of the TCXO may be stabilized by the constant power level of the adjacent circuitry, which may be on the chip or external to the chip. The frequency of the TCXO may be stabilized by temporarily disabling the adjacent circuitry. A GNSS clock signal may be stabilized by the configuring of the constant power level while a GNSS location may be calibrated. A GNSS location of a fixed wireless device, such as a wireless access point, may be calibrated utilizing the configured constant power level and shared with other wireless devices.
    • 公开了通过减少干扰来稳定GNSS时钟的方法和系统,并且可以包括稳定GNSS设备中的芯片上的温度补偿晶体振荡器(TCXO)的频率。 可以通过以恒定功率电平临时配置与TCXO相邻的电路来为器件生成时钟信号。 TCXO的温度和电磁干扰可以通过相邻电路的恒定功率电平来稳定,相邻电路可能在芯片上或芯片的外部。 TCXO的频率可以通过临时禁用相邻电路来稳定。 可以通过配置恒定功率电平来稳定GNSS时钟信号,同时可以校准GNSS位置。 诸如无线接入点的固定无线设备的GNSS位置可以使用配置的恒定功率电平进行校准,并与其他无线设备共享。