IP FLOW BASED OFFLOAD FOR SUBSCRIBER DATA OPTIMIZATION AND SCHEDULING AT THE BASESTATION IN A MOBILE DATA NETWORK
    1.
    发明申请
    IP FLOW BASED OFFLOAD FOR SUBSCRIBER DATA OPTIMIZATION AND SCHEDULING AT THE BASESTATION IN A MOBILE DATA NETWORK 有权
    基于流量的基于移动数据网络基础的用户订阅数据优化和调度的卸载

    公开(公告)号:US20140010095A1

    公开(公告)日:2014-01-09

    申请号:US13542715

    申请日:2012-07-06

    IPC分类号: H04W24/00

    CPC分类号: H04L47/12 H04L12/56

    摘要: Mobile network services are performed at the edge in a flat mobile data network in a way that is transparent to most of the existing equipment in the mobile data network to reduce the load and increase efficiency on the mobile data network by breaking out data at the edge based on specific IP data flows. The mobile data network includes a radio access network and a core network. A first service mechanism in the radio access network breaks out data coming from a basestation based on breakout conditions, and performs one or more mobile network services. The second service mechanism determines what traffic satisfies breakout authorization criteria and informs the first service mechanism. The message from the second service mechanism triggers the first service mechanism to perform IP flow based breakout. An overlay network allows the first and second mechanisms to communicate with each other.

    摘要翻译: 移动网络服务在平面移动数据网络的边缘以对移动数据网络中的大多数现有设备是透明的方式执行,以通过在边缘分布数据来减少移动数据网络上的负载并提高效率 基于具体的IP数据流。 移动数据网络包括无线电接入网络和核心网络。 无线电接入网中的第一个服务机制基于突围条件突发出来自基站的数据,并执行一个或多个移动网络服务。 第二个服务机制确定什么流量满足突发授权标准并通知第一个服务机制。 来自第二服务机制的消息触发第一服务机制来执行基于IP流的突发。 覆盖网络允许第一和第二机制彼此通信。

    Reducing packet loss in a mobile data network with data breakout at the edge
    2.
    发明授权
    Reducing packet loss in a mobile data network with data breakout at the edge 有权
    在移动数据网络中减少数据包丢失,并在边缘发生数据突破

    公开(公告)号:US08913556B2

    公开(公告)日:2014-12-16

    申请号:US13525852

    申请日:2012-06-18

    IPC分类号: H04W4/00

    摘要: A breakout system initiates RLC resets to resynchronize data communication to improve quality of experience for the user. Synchronization of radio traffic is monitored and maintained by the breakout system. When data is broken out, the RLC function is split into two different flows, between the UE and the breakout system and between the breakout system and the RNC. When the sequence numbers of the two flows become out of sync the ciphering context will become out of synchronization resulting in errors. The breakout system can initiate an RLC reset into both of these flows to resynchronize the data communication to improve user's quality of experience.

    摘要翻译: 突发系统启动RLC重置以重新同步数据通信以提高用户的体验质量。 无线电业务的同步由突围系统监控和维护。 当数据被破坏时,RLC功能被分为两个不同的流,在UE和突围系统之间,以及突发系统和RNC之间。 当两个流的序列号不同步时,加密上下文将变得不同步,导致错误。 突围系统可以启动RLC复位到这两个流中,以重新同步数据通信以提高用户的体验质量。

    IP flow based offload for subscriber data optimization and scheduling at the basestation in a mobile data network
    3.
    发明授权
    IP flow based offload for subscriber data optimization and scheduling at the basestation in a mobile data network 有权
    基于IP流的移动数据网络中基站的用户数据优化和调度

    公开(公告)号:US08897160B2

    公开(公告)日:2014-11-25

    申请号:US13542715

    申请日:2012-07-06

    IPC分类号: H04W24/00

    CPC分类号: H04L47/12 H04L12/56

    摘要: Mobile network services are performed at the edge in a flat mobile data network in a way that is transparent to most of the existing equipment in the mobile data network to reduce the load and increase efficiency on the mobile data network by breaking out data at the edge based on specific IP data flows. The mobile data network includes a radio access network and a core network. A first service mechanism in the radio access network breaks out data coming from a basestation based on breakout conditions, and performs one or more mobile network services. The second service mechanism determines what traffic satisfies breakout authorization criteria and informs the first service mechanism. The message from the second service mechanism triggers the first service mechanism to perform IP flow based breakout. An overlay network allows the first and second mechanisms to communicate with each other.

    摘要翻译: 移动网络服务在平面移动数据网络的边缘以对移动数据网络中的大多数现有设备是透明的方式执行,以通过在边缘分布数据来减少移动数据网络上的负载并提高效率 基于具体的IP数据流。 移动数据网络包括无线电接入网络和核心网络。 无线电接入网中的第一个服务机制基于突围条件突发出来自基站的数据,并执行一个或多个移动网络服务。 第二个服务机制确定什么流量满足突发授权标准并通知第一个服务机制。 来自第二服务机制的消息触发第一服务机制来执行基于IP流的突发。 覆盖网络允许第一和第二机制彼此通信。

    REDUCING PACKET LOSS IN A MOBILE DATA NETWORK WITH DATA BREAKOUT AT THE EDGE
    4.
    发明申请
    REDUCING PACKET LOSS IN A MOBILE DATA NETWORK WITH DATA BREAKOUT AT THE EDGE 有权
    减少移动数据网络中的数据包丢失的数据包丢失

    公开(公告)号:US20130336207A1

    公开(公告)日:2013-12-19

    申请号:US13525852

    申请日:2012-06-18

    IPC分类号: H04W56/00 H04W24/00

    摘要: A breakout system initiates RLC resets to resynchronize data communication to improve quality of experience for the user. Synchronization of radio traffic is monitored and maintained by the breakout system. When data is broken out, the RLC function is split into two different flows, between the UE and the breakout system and between the breakout system and the RNC. When the sequence numbers of the two flows become out of sync the ciphering context will become out of synchronization resulting in errors. The breakout system can initiate an RLC reset into both of these flows to resynchronize the data communication to improve user's quality of experience.

    摘要翻译: 突发系统启动RLC重置以重新同步数据通信以提高用户的体验质量。 无线电业务的同步由突围系统监控和维护。 当数据被破坏时,RLC功能被分为两个不同的流,在UE和突围系统之间,以及突发系统和RNC之间。 当两个流的序列号不同步时,加密上下文将变得不同步,导致错误。 突围系统可以启动RLC复位到这两个流中,以重新同步数据通信以提高用户的体验质量。

    Using the maintenance channel in a mobile data network to provide subscriber data when a cache miss occurs
    7.
    发明授权
    Using the maintenance channel in a mobile data network to provide subscriber data when a cache miss occurs 失效
    使用移动数据网络中的维护通道在发生高速缓存未命中时提供用户数据

    公开(公告)号:US08521153B1

    公开(公告)日:2013-08-27

    申请号:US13525889

    申请日:2012-06-18

    IPC分类号: H04W24/00

    摘要: A mobile data network includes a radio access network and a core network. A first service mechanism in the radio access network breaks out data coming from a basestation. When data is broken out by the first service mechanism, the data is delivered at the edge, which means the true activity of the channel is not visible to the core network. In order to maintain the high-speed channel, channel maintenance data packets are sent to and from the radio network controller on the network tunnel. The maintenance channel is also used to send cache miss data to a subscriber when a cache miss occurs at the edge of the mobile data network, without regard to a need for channel maintenance data packets.

    摘要翻译: 移动数据网络包括无线电接入网络和核心网络。 无线电接入网络中的第一个服务机制突破了基站的数据。 当数据由第一个服务机制分解时,数据在边缘传送,这意味着信道的真实活动对于核心网络是不可见的。 为了保持高速通道,在网络隧道上向无线网络控制器发送信道维护数据包。 当移动数据网络的边缘发生高速缓存未命中时,维护信道也用于向用户发送高速缓存未命中数据,而不考虑对信道维护数据分组的需要。

    Utilizing stored data to reduce packet data loss in a mobile data network with data breakout at the edge
    8.
    发明授权
    Utilizing stored data to reduce packet data loss in a mobile data network with data breakout at the edge 有权
    利用存储的数据减少移动数据网络中边缘数据突发的数据包丢失

    公开(公告)号:US09019843B2

    公开(公告)日:2015-04-28

    申请号:US13614700

    申请日:2012-09-13

    IPC分类号: H04W28/04

    摘要: In a mobile data network with a breakout system, when data is broken out, the RLC function is split into two different flows, between the UE and the breakout system and between the breakout system and the RNC. These two flows are processed by different RLC functions that may drift apart and become out of synchronization resulting in errors that diminish the user's quality of experience. Other errors may also occur in communication on these two different flows. The breakout system attempts to correct these errors using data stored locally in communication data structures for the two data flows. If the errors cannot be corrected, the breakout system can initiate an RLC reset into both of these flows to resynchronize the data communication.

    摘要翻译: 在具有突围系统的移动数据网络中,当数据被破坏时,RLC功能被分为两个不同的流,在UE和突围系统之间,以及突发系统与RNC之间。 这两个流由不同的RLC功能处理,这些功能可能会分离并变得不一致,导致错误,从而降低用户的体验质量。 在这两个不同的流程上的通信中也可能发生其他错误。 突破系统尝试使用本地存储在两个数据流的通信数据结构中的数据来纠正这些错误。 如果错误无法纠正,则突围系统可以启动RLC复位到这两个流中,以重新同步数据通信。