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    • 2. 发明申请
    • METHOD AND APPARATUS FOR MAPPING APPLICATIONS TO RADIOS IN A WIRELESS COMMUNICATION DEVICE
    • 在无线通信设备中将无线电应用映射到应用的方法和装置
    • US20110199989A1
    • 2011-08-18
    • US12857686
    • 2010-08-17
    • Richard D. WietfeldtHans Georg Gruber
    • Richard D. WietfeldtHans Georg Gruber
    • H04W72/04
    • H04W72/1215H04W48/18H04W88/06
    • Techniques for mapping applications to radios in a wireless communication device are described. In one design, a controller residing below an operating system may receive inputs from applications residing above the operating system. The controller may determine radios selected based on the application inputs and further to mitigate interference between these radios. The controller may determine mapping of the applications to the radios based on the application inputs and may provide, to the applications, information indicative of the radios to which the applications are mapped. The applications may obtain connectivity via their selected radios. The controller may interface with entities in both upper layers and lower layers to facilitate radio selection and application-to-radio mapping. The controller may control the operation of a connection manager and/or a coexistence manager, manage databases for these managers, provide CPU and memory resources for these managers, manage a data bus used for communication, etc.
    • 描述了将应用映射到无线通信设备中的无线电的技术。 在一种设计中,位于操作系统下方的控制器可以接收来自驻留在操作系统上方的应用的输入。 控制器可以基于应用输入来确定选择的无线电,并进一步减轻这些无线电之间的干扰。 控制器可以基于应用输入来确定应用到无线电的映射,并且可以向应用提供指示应用映射到的无线电的信息。 应用程序可以通过其选定的无线电获取连接。 控制器可以与上层和下层的实体进行接口,以便于无线电选择和应用到无线电映射。 控制器可以控制连接管理器和/或共存管理器的操作,管理这些管理器的数据库,为这些管理器提供CPU和存储器资源,管理用于通信的数据总线等。
    • 3. 发明申请
    • ASYNCHRONOUS INTERFACE FOR MULTI-RADIO COEXISTENCE MANAGER
    • 用于多无线电副总经理的异步接口
    • US20110026458A1
    • 2011-02-03
    • US12749195
    • 2010-03-29
    • Hans Georg GruberRichard Dominic WietteldtGeorge Chrisikos
    • Hans Georg GruberRichard Dominic WietteldtGeorge Chrisikos
    • H04W40/00
    • G06F13/385G06F2213/3814H04W72/1215H04W88/06H04W88/10
    • Systems and methodologies are described herein that facilitate an asynchronous bus architecture for multi-radio coexistence associated with a wireless device. As described herein, a system of buses operating in an asynchronous manner, combined with optional on-chip and/or other supplemental buses, can be utilized to couple respective radios and/or other related endpoints to a coexistence management platform, thereby facilitating management of coexistence between multiple radios in a unified and scalable manner. As further described herein, communication between a coexistence manager and its respective managed endpoints can be facilitated through the use of a single bus or multiple buses that can be switched and/or otherwise operate in a concurrent manner to facilitate expedited conveyance of radio event notifications and their corresponding responses.
    • 本文描述了有助于与无线设备相关联的多无线电共存的异步总线架构的系统和方法。 如本文所描述的,可以利用以异步方式操作的总线系统,与可选的片上和/或其他补充总线组合,将相应的无线电和/或其他相关端点耦合到共存管理平台,从而便于管理 多台无线电之间以统一和可扩展的方式共存。 如本文进一步描述的,可以通过使用可以以并发方式切换和/或以其他方式操作的单个总线或多个总线来促进共存管理器及其相应的受管端点之间的通信,以促进无线电事件通知的加速传送,以及 他们对应的回应。
    • 5. 发明申请
    • SYNCHRONOUS INTERFACE FOR MULTI-RADIO COEXISTENCE MANAGER
    • 用于多无线电共享管理器的同步接口
    • US20110026432A1
    • 2011-02-03
    • US12749214
    • 2010-03-29
    • Hans Georg GruberRichard Dominic WietfeldtGeorge Chrisikos
    • Hans Georg GruberRichard Dominic WietfeldtGeorge Chrisikos
    • H04L12/28
    • H04L12/417H04W72/1215H04W88/06
    • Systems and methodologies are described herein that facilitate a synchronous bus architecture for multi-radio coexistence associated with a wireless device. As described herein, a system of buses operating in a synchronous manner, combined with optional on-chip and/or other supplemental buses, can be utilized to couple respective radios and/or other related endpoints to a coexistence management platform, thereby facilitating management of coexistence between multiple radios in a unified and scalable manner. As further described herein, communication between a coexistence manager and its respective managed endpoints can be facilitated through the use of a single bus or multiple buses (e.g., external buses, on-chip and/or other internal buses, etc.) that can operate concurrently and/or in an otherwise cooperative manner to facilitate expedited conveyance of radio event notifications and their corresponding responses.
    • 本文描述了促进与无线设备相关联的多无线电共存的同步总线架构的系统和方法。 如本文所述,可以利用以同步方式操作的总线系统,与可选的片上和/或其他补充总线组合,将相应的无线电和/或其他相关端点耦合到共存管理平台,从而便于管理 多台无线电之间以统一和可扩展的方式共存。 如本文进一步所述,可以通过使用可以操作的单总线或多个总线(例如,外部总线,片上和/或其他内部总线等)来促进共存管理器及其相应的受管端点之间的通信 同时和/或以其他协作的方式促进无线电事件通知的快速传送及其相应的响应。
    • 9. 发明申请
    • WAKING A MEDIA BUS
    • 调用媒体总线
    • US20120278646A1
    • 2012-11-01
    • US13426374
    • 2012-03-21
    • Hans Georg GRUBERJulio ARCEOMagesh HARIHARANSuren MOHAN
    • Hans Georg GRUBERJulio ARCEOMagesh HARIHARANSuren MOHAN
    • G06F1/12
    • G06F13/4291G06F1/04G06F11/0763G06F11/1658
    • Arrangements for restarting data transmission on a serial low-power inter-chip media bus (SLIMbus) are presented. A clock signal may be provided in an active mode to a component communicatively coupled with the SLIMbus. Immediately prior to the clock signal in the active mode being provided, the clock signal may have been in a paused mode. While the clock signal was in the paused mode at least until the clock signal is provided in the active mode, the data line may have been inactive (e.g., a toggle on the data line may not have been present). Frame synchronization data for a frame may be transmitted. The frame synchronization data for the frame, as received by the component, may not match expected frame synchronization data. Payload data may be transmitted as part of the frame to the component, wherein the payload data is expected to be read properly by the component.
    • 介绍了在串行低功耗芯片间媒体总线(SLIMbus)上重新启动数据传输的安排。 可以以活动模式将时钟信号提供给与SLIMbus通信耦合的组件。 紧接在提供处于活动模式的时钟信号之前,时钟信号可能已经处于暂停模式。 至少在时钟信号处于激活模式之前,时钟信号处于暂停模式,数据线可能已经不工作(例如,数据线上的切换可能不存在)。 可以发送帧的帧同步数据。 由组件接收的帧的帧同步数据可能不匹配预期的帧同步数据。 有效负载数据可以作为帧的一部分被发送到组件,其中预期有效载荷数据被组件正确地读取。