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    Seamless handoff between access networks with saved session information
    21.
    发明授权
    Seamless handoff between access networks with saved session information 有权
    接入网络与保存的会话信息之间的无缝切换

    公开(公告)号:US08218530B2

    公开(公告)日:2012-07-10

    申请号:US11478417

    申请日:2006-06-28

    Applicant: Ajith T. Payyappilly Rajeev S. Kurundkar Sriram Nagesh Nookala Vipin A. Sali

    Inventor: Ajith T. Payyappilly Rajeev S. Kurundkar Sriram Nagesh Nookala Vipin A. Sali

    IPC: H04L12/66 H04W36/00

    CPC classification number: H04W76/22 H04W36/0011 H04W36/26

    Abstract: More seamless handoff between access networks is achieved by saving session information for each access network upon being handed off from the access network and invoking the saved session information upon being handed back to the access network. An access terminal establishes a first session with a first access network, which may entail performing QoS negotiation with the first access network and setting up packet filters at a packet data gateway. The access terminal exchanges data with the first access network in accordance with the configuration of the first session. The access terminal saves the first session configuration after being handed off to a second access network, establishes a second session with the second access network, and exchanges data with the second access network in accordance with the configuration of the second session. The access terminal uses the saved first session configuration upon being handed back to the first access network.

    Abstract translation: 通过在从接入网络切换时保存每个接入网络的会话信息并且在被递送到接入网络时调用保存的会话信息来实现接入网络之间的更无缝切换。 接入终端与第一接入网建立第一会话,可能需要与第一接入网进行QoS协商,并在分组数据网关建立分组过滤。 接入终端根据第一会话的配置与第一接入网络交换数据。 接入终端在切换到第二接入网络之后保存第一会话配置,与第二接入网建立第二会话,并根据第二会话的配置与第二接入网交换数据。 接入终端在被切回到第一接入网络时使用保存的第一会话配置。

    Methods and Apparatus for Enabling Relay-Model Tethered Data Calls in Wireless Networks
    22.
    发明申请
    Methods and Apparatus for Enabling Relay-Model Tethered Data Calls in Wireless Networks 失效
    在无线网络中启用中继模型绑定数据呼叫的方法和装置

    公开(公告)号:US20090274088A1

    公开(公告)日:2009-11-05

    申请号:US12183925

    申请日:2008-07-31

    Applicant: Ajith T. Payyappilly Lei Shen

    Inventor: Ajith T. Payyappilly Lei Shen

    IPC: H04B7/14

    CPC classification number: H04W76/36 H04W76/15

    Abstract: A method and apparatus for enabling a data call in a wireless network comprising determining if the data call in a packet app is a relay model tethered data call; and determining if default link flow type Flow 1 is deactivated for the data call. In one aspect, one or more of the following is also included: determining if the type of the data call is CDMA 2000 1X, IS-95A/B, EVDO Rev. 0, EVDO Rev. A or EVDO Rev. B; determining the type of the packet app; requesting to deactivate default link flow type Flow 1; and determining if default link flow type Flow 1 is deactivated for the data call; and wherein the type of the packet app is of a default packet app (DPA), a multi-flow packet app (MPA), an enhanced multi-flow packet app (EMPA) or a multi-link multi-flow packet app (MMPA).

    Abstract translation: 一种用于在无线网络中启用数据呼叫的方法和装置,包括确定分组应用中的数据呼叫是否是中继模型系留数据呼叫; 并确定数据呼叫是否禁用默认链路流类型流1。 在一个方面,还包括以下一个或多个:确定数据呼叫的类型是CDMA 2000 1X,IS-95A / B,EVDO Rev.0,EVDO Rev.A或EVDO Rev.B; 确定包应用程序的类型; 请求停用默认链路流类型流1; 并确定数据呼叫是否禁用默认链路流类型流1; 并且其中分组应用的类型是默认分组应用(DPA),多流分组应用(MPA),增强型多流分组应用(EMPA)或多链路多流分组应用(MMPA )。

    System and method for minimizing loss of IP context during IRAT handover
    24.
    发明授权
    System and method for minimizing loss of IP context during IRAT handover 有权
    在IRAT切换期间最小化IP上下文丢失的系统和方法

    公开(公告)号:US08982836B2

    公开(公告)日:2015-03-17

    申请号:US13275076

    申请日:2011-10-17

    Applicant: Suli Zhao Ajith T. Payyappilly Shrawan K. Khatri Siddharth D. Chitnis

    Inventor: Suli Zhao Ajith T. Payyappilly Shrawan K. Khatri Siddharth D. Chitnis

    IPC: H04W4/00 H04W36/00 H04W76/06

    CPC classification number: H04W36/0011 H04W76/30

    Abstract: A method for maintaining IP context during an inter RAT handover of a UE between an eHRPD network and an LTE network may include delaying a transfer of an Internet Protocol context for at least one active packet data network until an IP address for an attach (PDN) Packet Data Network has been assigned and in the case where the Internet Protocol address for the Attach Packet Data Network is not assigned, initiating a detach operation from the LTE network without the user equipment losing the Internet Protocol context of the at least one active Packet Data Network.

    Abstract translation: 在UE在eHRPD网络和LTE网络之间的RAT间切换期间维护IP上下文的方法可以包括延迟用于至少一个活动分组数据网络的因特网协议上下文的传输,直到用于附着(PDN)的IP地址为止, 已经分配了分组数据网络,并且在未分配用于附接分组数据网络的因特网协议地址的情况下,从LTE网络发起分离操作,而用户设备丢失了至少一个活动分组数据的因特网协议上下文 网络。

    Conserving network capacity by releasing QoS resources
    25.
    发明授权
    Conserving network capacity by releasing QoS resources 有权
    通过释放QoS资源来节省网络容量

    公开(公告)号:US08953596B2

    公开(公告)日:2015-02-10

    申请号:US11326760

    申请日:2006-01-06

    Applicant: Ajith T. Payyappilly Sriram Nagesh Nookala Vipin A. Sali

    Inventor: Ajith T. Payyappilly Sriram Nagesh Nookala Vipin A. Sali

    IPC: H04L12/28 H04W72/08 H04L12/801 H04W72/04

    CPC classification number: H04L47/14 H04W72/0406 H04W72/085 H04W92/10

    Abstract: A broadband service is provided by allocating air interface resources in a wireless network that conforms to the 1xEV-DO standard. The air interface resources are characterized by various quality of service (QoS) parameters, such as bandwidth, packet priority and error rate. Packetized information is transmitted in data flows between a base station and cell phones. A particular QoS level is reserved for each of the data flows that support the broadband service. An operating system on a cell phone monitors one data flow as well as another data flow in the opposite direction. When the base station runs out of an air interface resource, the base station suspends the QoS reservation of a data flow. The operating system determines that the QoS reservation in one direction has been suspended and sends an unsolicited message to the base station releasing the QoS reservation in the opposite direction, thereby conserving network resources.

    Abstract translation: 通过在符合1xEV-DO标准的无线网络中分配空中接口资源来提供宽带服务。 空中接口资源的特点是各种服务质量(QoS)参数,如带宽,分组优先级和错误率。 分组信息在基站和蜂窝电话之间的数据流中发送。 为支持宽带服务的每个数据流保留特定的QoS级别。 手机上的操作系统监视一个数据流以及另一个数据流在相反的方向。 当基站用完空中接口资源时,基站暂停数据流的QoS预留。 操作系统确定一个方向的QoS预留已经被暂停,并且向基站发送非请求消息,以相反的方向释放QoS预留,从而节省网络资源。

    APPARATUS AND METHODS FOR OPTIMIZING POWER CONSUMPTION IN A WIRELESS DEVICE
    27.
    发明申请
    APPARATUS AND METHODS FOR OPTIMIZING POWER CONSUMPTION IN A WIRELESS DEVICE 有权
    在无线设备中优化消耗功率的装置和方法

    公开(公告)号:US20110072295A1

    公开(公告)日:2011-03-24

    申请号:US12889255

    申请日:2010-09-23

    Applicant: Reza Shahidi Alex Kuang-Hsuan Tu Brian J. Salsbery Ajith T. Payyappilly Xiaodong Chen

    Inventor: Reza Shahidi Alex Kuang-Hsuan Tu Brian J. Salsbery Ajith T. Payyappilly Xiaodong Chen

    IPC: G06F1/00

    CPC classification number: G06F1/324 G06F1/3203 G06F1/3215 Y02D10/126

    Abstract: Apparatus and methods are disclosed for power optimization in a wireless device. The apparatus and methods effect monitoring the amount of data stored in a data buffer that buffers data input to and data output from a processor. Dependent on the amount of data stored in the buffers parameters of a control function, such as a Dynamic Clock and Voltage Scaling (DCVS) function are modified based on the amount of data stored in the data buffer. By modifying or pre-empting the parameters of the control function, which controls at least processor frequency, the processor can process applications more dynamically over default parameter settings, especially in situations where one or more real-time activities having strict time constraints for completion are being handled by the processor as evinced by increased buffer depth. As a result, power usage is further optimized as the control function is more responsive to processing conditions.

    Abstract translation: 公开了用于无线设备中的功率优化的装置和方法。 该装置和方法监视存储在数据缓冲器中的数据量,该数据缓冲器中的数据输入到处理器输出的数据和从处理器输出的数据。 基于存储在数据缓冲器中的数据量来修改存储在缓冲器中的数据量的数据量,例如动态时钟和电压调节(DCVS)功能。 通过修改或预先控制至少控制处理器频率的控制功能的参数,处理器可以通过默认参数设置更动态地处理应用程序,特别是在具有严格的完成时间限制的一个或多个实时活动 由处理器处理,由增加的缓冲区深度所证明。 因此,随着控制功能对处理条件的响应更加灵敏,电力使用进一步优化。

    METHOD AND APPARATUS FOR MAINTAINING AN ALWAYS-ON DATA SESSION IN A WIRELESS COMMUNICATION NETWORK
    28.
    发明申请
    METHOD AND APPARATUS FOR MAINTAINING AN ALWAYS-ON DATA SESSION IN A WIRELESS COMMUNICATION NETWORK 有权
    在无线通信网络中维护一个全局数据会话的方法和装置

    公开(公告)号:US20090003208A1

    公开(公告)日:2009-01-01

    申请号:US11830710

    申请日:2007-07-30

    Applicant: Ajith T. Payyappilly Lei Shen Parag Arun Agashe Reza Shahidi

    Inventor: Ajith T. Payyappilly Lei Shen Parag Arun Agashe Reza Shahidi

    IPC: G08C15/00

    CPC classification number: H04W76/045 H04L67/14 H04L67/145 H04L67/147 H04W4/20 H04W76/25 H04W80/02

    Abstract: Techniques for maintaining an always-on data session for an access terminal are described. Messages to keep alive the data session may be sent using non-traffic channels to avoid bringing up traffic channels just to send these messages. In one design, an access network may send a first message (e.g., a RouteUpdateRequest message) on a first non-traffic channel (e.g., a control channel) to the access terminal. The access terminal may return a second message (e.g., a RouteUpdate message) on a second non-traffic channel (e.g., an access channel) to the access network. The access network may then send a third message (e.g., for an Echo-Request) on the first non-traffic channel over a smaller area covering an approximate location of the access terminal, which may be determined based on the second message. The access terminal may return a fourth message (e.g., for an Echo-Reply) on the second non-traffic channel to the access network.

    Abstract translation: 描述了用于维护接入终端的始终接通数据会话的技术。 可以使用非流量信道发送保持数据会话的消息,以避免产生流量信道来发送这些消息。 在一种设计中,接入网络可以在第一非业务信道(例如,控制信道)上向接入终端发送第一消息(例如,RouteUpdateRequest消息)。 接入终端可以在接入网络的第二非业务信道(例如,接入信道)上返回第二消息(例如,RouteUpdate消息)。 然后,接入网络可以在覆盖接入终端的大致位置的较小区域上,在第一非业务信道上发送第三消息(例如,对于Echo请求),其可以基于第二消息来确定。 接入终端可以在第二非业务信道上向接入网络返回第四消息(例如,用于回应 - 回复)。

    DATA ROUTING VIA LOWER LAYERS IN A COMMUNICATION SYSTEM
    29.
    发明申请
    DATA ROUTING VIA LOWER LAYERS IN A COMMUNICATION SYSTEM 有权
    通信系统中的下层数据路由

    公开(公告)号:US20080101356A1

    公开(公告)日:2008-05-01

    申请号:US11764135

    申请日:2007-06-15

    Applicant: Uppinder S. Babbar Ajith T. Payyappilly Srinivas R. Mudireddy Venkata Satish Kumar Vangala

    Inventor: Uppinder S. Babbar Ajith T. Payyappilly Srinivas R. Mudireddy Venkata Satish Kumar Vangala

    IPC: H04L12/56

    CPC classification number: H04L45/00 H04L45/22 H04L45/306 H04L47/14 H04L69/14 H04W28/24 H04W40/12 Y02D70/1222 Y02D70/1224 Y02D70/1242 Y02D70/142 Y02D70/146 Y02D70/23 Y02D70/34

    Abstract: Techniques for routing data via lower layer paths through lower layers of a protocol stack are described. A lower layer path may be composed of a flow for packets, a link at a link layer, and a channel at a physical layer. A packet may be received from an application. A most preferred lower layer path for the packet may be selected from among at least one available lower layer path. The available lower layer path(s) may be arranged in an order of preference based on treatment of packets (e.g., best effort or QoS), protocols used at the link layer, channel types at the physical layer, and/or other factors. The packet may be sent via the selected lower layer path. A highest precedence lower layer path for the packet may be set up (e.g., in parallel) if this path is not among the at least one available lower layer path.

    Abstract translation: 描述了通过较低层路径通过协议栈的较低层路由数据的技术。 下层路径可以由分组流,链路层的链路和物理层的信道组成。 可以从应用程序接收分组。 可以从至少一个可用的下层路径中选择用于分组的最优选的较低层路径。 基于处理分组(例如,尽力而为或QoS),链路层使用的协议,物理层的信道类型和/或其他因素,可以按照优先顺序来排列可用的下层路径。 分组可以经由所选择的下层路径发送。 如果该路径不在至少一个可用的下层路径之中,则可以建立分组的最高优先级较低层路径(例如并行)。

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