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    HETEROGENEOUS SELF-ORGANIZING NETWORK FOR ACCESS AND BACKHAUL
    2.
    发明申请
    HETEROGENEOUS SELF-ORGANIZING NETWORK FOR ACCESS AND BACKHAUL 审中-公开
    异构自组织网络用于访问和反向

    公开(公告)号:WO2014052436A2

    公开(公告)日:2014-04-03

    申请号:PCT/US2013/061656

    申请日:2013-09-25

    Applicant: PARALLEL WIRELESS INC.

    Inventor: AGARWAL, Kaitki RAGHAVAN, Pradeep, Kumar, Dakshayani GARG, Sumit MISHRA, Rajesh, Kumar PAPA, Steven, Paul DONEPUDI, Sridhar TALLURI, Murali

    CPC classification number: H04W24/02 H04W36/32 H04W64/006 H04W84/18

    Abstract: This application discloses methods for creating self-organizing networks implemented on heterogeneous mesh networks. The self-organizing networks can include a computing cloud component coupled to the heterogeneous mesh network. In the methods and computer-readable mediums disclosed herein, a processor receives an environmental condition for a mesh network. The processor may have measured the environmental condition, or it could have received it from elsewhere, e.g., internally stored information, a neighboring node, a server located in a computing cloud, a network element, user equipment ("UE"), and the like. After receiving the environmental condition, the processor evaluates it and determines whether an operational parameter within the mesh network should change to better optimize network performance.

    Abstract translation: 该应用公开了用于创建在异构网状网络上实现的自组织网络的方法。 自组织网络可以包括耦合到异构网状网络的计算云组件。 在本文公开的方法和计算机可读介质中,处理器接收网状网络的环境条件。 处理器可以测量环境条件,或者可以从其他地方接收它,例如内部存储的信息,相邻节点,位于计算云中的服务器,网络元件,用户设备(“UE”),以及 喜欢。 处理器接收到环境条件后,对其进行评估,确定网状网络内的运行参数是否发生变化,以更好地优化网络性能。

    END-TO-END PRIORITIZATION FOR MOBILE BASE STATION
    3.
    发明申请
    END-TO-END PRIORITIZATION FOR MOBILE BASE STATION 审中-公开
    移动基站的端到端优先级

    公开(公告)号:WO2017205855A1

    公开(公告)日:2017-11-30

    申请号:PCT/US2017/034873

    申请日:2017-05-26

    Applicant: PARALLEL WIRELESS, INC.

    Inventor: MEHTA, Pratik CAO, Yang GARG, Sumit AGARWAL, Kaitki MISHRA, Rajesh

    IPC: H04L12/28

    Abstract: A method for utilizing quality of service information in a network with tunneled backhaul is disclosed, comprising: establishing a backhaul bearer at a base station with a first core network, the backhaul bearer established by a backhaul user equipment (UE) at the base station, the backhaul bearer having a single priority parameter, the backhaul bearer terminating at a first packet data network gateway in the first core network; establishing an encrypted internet protocol (IP) tunnel between the base station and a coordinating gateway in communication with the first core network and a second core network; facilitating, for at least one UE attached at the base station, establishment of a plurality of UE data bearers encapsulated in the secure IP tunnel, each with their own QCI; and transmitting prioritized data of the plurality of UE data bearers via the backhaul bearer and the coordinating gateway to the second core network.

    Abstract translation: 公开了一种在具有隧道回程的网络中利用服务质量信息的方法,包括:在具有第一核心网络的基站处建立回程承载,所述回程承载由回程用户设备 (UE),所述回程承载具有单个优先级参数,所述回程承载终止于所述第一核心网络中的第一分组数据网络网关; 在所述基站和与所述第一核心网和第二核心网通信的协调网关之间建立加密的因特网协议(IP)隧道; 为连接在所述基站的至少一个UE促成建立封装在所述安全IP隧道中的多个UE数据承载,每个所述UE数据承载具有它们自己的QCI; 以及经由回程承载和协调网关将多个UE数据承载的优先化数据发送到第二核心网络。

    HETEROGENEOUS SELF-ORGANIZING NETWORK FOR ACCESS AND BACKHAUL
    5.
    发明公开
    HETEROGENEOUS SELF-ORGANIZING NETWORK FOR ACCESS AND BACKHAUL 审中-公开
    异构自组织网络接入和回程

    公开(公告)号:EP2907341A2

    公开(公告)日:2015-08-19

    申请号:EP13841824.9

    申请日:2013-09-25

    Applicant: Parallel Wireless Inc.

    Inventor: AGARWAL, Kaitki RAGHAVAN, Pradeep, Kumar, Dakshayani GARG, Sumit MISHRA, Rajesh, Kumar PAPA, Steven, Paul DONEPUDI, Sridhar TALLURI, Murali

    IPC: H04W36/14

    Abstract: This application discloses methods for creating self-organizing networks implemented on heterogeneous mesh networks. The self-organizing networks can include a computing cloud component coupled to the heterogeneous mesh network. In the methods and computer-readable mediums disclosed herein, a processor receives an environmental condition for a mesh network. The processor may have measured the environmental condition, or it could have received it from elsewhere, e.g., internally stored information, a neighboring node, a server located in a computing cloud, a network element, user equipment (“UE”), and the like. After receiving the environmental condition, the processor evaluates it and determines whether an operational parameter within the mesh network should change to better optimize network performance.

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