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    METHOD AND SYSTEM FOR A DISTRIBUTED RECEIVER
    13.
    发明申请
    METHOD AND SYSTEM FOR A DISTRIBUTED RECEIVER 有权
    分布式接收机的方法和系统

    公开(公告)号:US20130201406A1

    公开(公告)日:2013-08-08

    申请号:US13760253

    申请日:2013-02-06

    申请人: Curtis Ling Timothy Gallagher Glenn Chang

    发明人: Curtis Ling Timothy Gallagher Glenn Chang

    IPC分类号: H04H40/90 H04N5/455

    CPC分类号: H04H40/90 H04L1/0048 H04L25/061 H04L25/067 H04L27/38 H04N5/4401 H04N5/455 H04N21/42607

    摘要: A first semiconductor die may comprise an interface circuit and a demodulation circuit. The interface circuit may be operable to receive an externally generated signal and recover decisions of a symbol de-mapper carried in the externally generated signal. The demodulation circuit may be operable to recover one or more transport streams based on the decisions of the symbol de-mapper. The first semiconductor die may comprise circuitry operable to combine a plurality of signals from a plurality of second semiconductor dice, where each of the plurality of signals comprises decisions of a respective one of a plurality of symbol de-mappers.

    摘要翻译: 第一半导体管芯可以包括接口电路和解调电路。 接口电路可以用于接收外部产生的信号并恢复在外部产生的信号中承载的符号解映射器的决定。 解调电路可以用于基于符号解映射器的决定来恢复一个或多个传输流。 第一半导体管芯可以包括可操作以组合来自多个第二半导体管芯的多个信号的电路,其中多个信号中的每个信号包括多个符号解映射器中的相应一个的决定。

    Method and system for cross-protocol time synchronization
    17.
    发明授权
    Method and system for cross-protocol time synchronization 有权
    交叉协议时间同步的方法和系统

    公开(公告)号:US08806044B2

    公开(公告)日:2014-08-12

    申请号:US13305921

    申请日:2011-11-29

    申请人: Curtis Ling Timothy Gallagher

    发明人: Curtis Ling Timothy Gallagher

    IPC分类号: G06F15/16

    CPC分类号: H04J3/0638 H04J3/0644 H04L12/4625 H04L69/28

    摘要: Methods and systems for cross-protocol time synchronization may comprise, for example in a premises-based network, receiving a signal that conforms to a first communications protocol (e.g., a general-purpose communications protocol), extracting a global time of day (GTOD) clock from the received signal; and synchronizing communication on the premises-based network in accordance with a second communication protocol, based at least in part on the extracted GTOD clock. The first communications protocol may comprise data over cable service interface specification (DOCSIS) or any protocol that provides a GTOD. The second communication protocol may comprise a multimedia over cable alliance (MoCA) standard, an IEEE 802.11x standard, or any non-public wireless network protocol. The GTOD clock may comprise a GPS clock, a GLONASS clock, and/or a Galileo clock. One or more of the networked devices may comprise a network controller, where the network controller comprises wireless network and wired network capability.

    摘要翻译: 用于交叉协议时间同步的方法和系统可以包括例如在基于房舍的网络中,接收符合第一通信协议(例如,通用通信协议)的信号,提取全球时间(GTOD )时钟; 以及至少部分地基于所提取的GTOD时钟,根据第二通信协议在基于场所的网络上同步通信。 第一通信协议可以包括通过电缆服务接口规范(DOCSIS)的数据或提供GTOD的任何协议。 第二通信协议可以包括多媒体跨线联盟(MoCA)标准,IEEE 802.11x标准或任何非公共无线网络协议。 GTOD时钟可以包括GPS时钟,GLONASS时钟和/或伽利略时钟。 一个或多个联网设备可以包括网络控制器,其中网络控制器包括无线网络和有线网络能力。

    Method and system for broadband analog to digital converter technology
    18.
    发明授权
    Method and system for broadband analog to digital converter technology 有权
    宽带模数转换技术的方法与系统

    公开(公告)号:US08599050B2

    公开(公告)日:2013-12-03

    申请号:US13345063

    申请日:2012-01-06

    申请人: Mansour Rachid Timothy Gallagher Curtis Ling

    发明人: Mansour Rachid Timothy Gallagher Curtis Ling

    IPC分类号: H03M1/06

    CPC分类号: H03M1/1038 H03M1/12

    摘要: Nonlinearity correction in a device that performs analog-to-digital conversion on received analog signals, may be calibrated by generating correction-parameters estimation which when applied to the total spectral content reduces distortion resulting from said nonlinearity in originally-unoccupied spectral regions. Digital signals generated based on sampling of the received analog signals may then be corrected, to remove nonlinearity related distortion, based on the estimated correction-parameters. The nonlinearity calibration may be performed during reception and handling of said analog signals. The correction-parameters may be generated based on signals located in particular spectral regions, such as the originally-unoccupied spectral regions. These signals may be injected within the device, into the particular spectral regions, and the signal may have known characteristics to enable estimating the required correction.

    摘要翻译: 在对接收到的模拟信号执行模数转换的装置中的非线性校正可以通过产生校正参数估计进行校准,校正参数估计当应用于总光谱内容时减少由原始未被占用的光谱区域中的所述非线性引起的失真。 然后可以基于所估计的校正参数来校正基于接收到的模拟信号的采样产生的数字信号以去除非线性相关的失真。 可以在接收和处理所述模拟信号期间执行非线性校准。 校正参数可以基于位于特定光谱区域(例如原始未被占用的光谱区域)的信号产生。 这些信号可以在设备内注入到特定的光谱区域中,并且该信号可以具有已知的特性以使得能够估计所需的校正。

    METHOD AND SYSTEM FOR BROADBAND NEAR-FIELD COMMUNICATION UTILIZING FULL SPECTRUM CAPTURE (FSC) SUPPORTING SCREEN AND APPLICATION SHARING
    19.
    发明申请
    METHOD AND SYSTEM FOR BROADBAND NEAR-FIELD COMMUNICATION UTILIZING FULL SPECTRUM CAPTURE (FSC) SUPPORTING SCREEN AND APPLICATION SHARING 有权
    使用全频谱捕获(FSC)支持的屏幕和应用共享的宽带近场通信的方法和系统

    公开(公告)号:US20130210353A1

    公开(公告)日:2013-08-15

    申请号:US13769031

    申请日:2013-02-15

    申请人: Curtis Ling Timothy Gallagher

    发明人: Curtis Ling Timothy Gallagher

    IPC分类号: H04B5/00

    CPC分类号: H04W4/80 G01S11/06 G06F3/0481 H04B5/00 H04B5/0037 H04B7/18517 H04B17/309 H04B17/318 H04W12/08 H04W52/283 H04W72/0453 H04W76/10 H04W84/18

    摘要: A wireless communication device (WCD) establishes an ad-hoc communication link with a second WCD within operating range. A replica of at least a portion of a display of the first WCD may be shared with the second WCD utilizing wireless broadband signals that are communicated via the established one or more ad-hoc communication links. The first WCD and the second WCD are operable to communicate the wireless broadband signals at a power level that is below a spurious emissions mask. The transmitted wireless broadband signals are spread so they occupy a designated frequency spectrum band. The shared replica of at least a portion of the display of the first WCD includes one or more applications, text, video and/or data content. A user of the first WCD may interact with content that is displayed on a display of the second WCD and vice-versa.

    摘要翻译: 无线通信设备(WCD)在操作范围内建立与第二WCD的自组织通信链路。 第一WCD的显示器的至少一部分的副本可以利用经由建立的一个或多个自组织通信链路传送的无线宽带信号与第二WCD共享。 第一WCD和第二WCD可用于以低于杂散发射掩模的功率电平来传送无线宽带信号。 传输的无线宽带信号被扩展,因此它们占据指定的频谱带。 第一WCD的显示器的至少一部分的共享副本包括一个或多个应用,文本,视频和/或数据内容。 第一WCD的用户可以与显示在第二WCD的显示器上的内容相互作用,反之亦然。

    Method and System for Buffer State Based Low Power Operation in a MoCA Network
    20.
    发明申请
    Method and System for Buffer State Based Low Power Operation in a MoCA Network 有权
    MoCA网络中基于缓冲器状态的低功耗操作的方法和系统

    公开(公告)号:US20130159567A1

    公开(公告)日:2013-06-20

    申请号:US13328634

    申请日:2011-12-16

    申请人: Timothy Gallagher Glenn DeLucio Curtis Ling

    发明人: Timothy Gallagher Glenn DeLucio Curtis Ling

    IPC分类号: G06F13/14

    CPC分类号: G06F13/20 G06F1/3234 G06F1/3278 G06F13/1673 Y02B70/12 Y02D10/157

    摘要: A first device of a Multimedia Over Coax Alliance (MoCA) network may communicate with a second device of the MoCA network to control power-save operation of the second MoCA device. The first device may control the power-save operation of the second MoCA device based on an amount of data stored in a buffer, wherein the data stored in the buffer is destined for the second device. The buffer may be in a third device which sends the data to the second device, and/or the buffer may be in the first device. The first device may be operable to buffer data destined for the second device while the second device is in a power-saving state.

    摘要翻译: 多媒体同轴联盟(MoCA)网络的第一设备可以与MoCA网络的第二设备进行通信,以控制第二MoCA设备的节电操作。 第一设备可以基于存储在缓冲器中的数据量来控制第二MoCA设备的省电操作,其中存储在缓冲器中的数据指定给第二设备。 缓冲器可以在向第二设备发送数据的第三设备中,和/或缓冲器可以在第一设备中。 当第二设备处于省电状态时,第一设备可以用于缓冲去往第二设备的数据。