Scheduling of logical channels in a wireless communication system
    1.
    发明授权
    Scheduling of logical channels in a wireless communication system 有权
    在无线通信系统中调度逻辑信道

    公开(公告)号:US08514703B2

    公开(公告)日:2013-08-20

    申请号:US12944413

    申请日:2010-11-11

    IPC分类号: H04J1/16

    摘要: Techniques for scheduling logical channels for data transmission are described. In one design, a user equipment (UE) is configured with a plurality of logical channels for sending data on the uplink. Each logical channel is associated with a priority and a data buffer size. The UE maintains a token bucket for each logical channel. In each scheduling interval or when an uplink grant is received, the UE determines a bucket level (which may be a positive value or a non-positive value) for each of the plurality of logical channels. The UE ascertains logical channels with bucket levels of the same polarity and then identifies logical channels of the same priority among all logical channels with the same bucket level polarity. The UE selects at least one identified logical channel for scheduling based on the data buffer size and/or the bucket level for each identified logical channel.

    摘要翻译: 描述用于调度用于数据传输的逻辑信道的技术。 在一种设计中,用户设备(UE)配置有用于在上行链路上发送数据的多个逻辑信道。 每个逻辑信道与优先级和数据缓冲区大小相关联。 UE维护每个逻辑信道的令牌桶。 在每个调度间隔中,或者当接收到上行链路许可时,UE针对多个逻辑信道中的每个逻辑信道确定桶级(其可以是正值或非正值)。 UE确定具有相同极性的级别的逻辑信道,然后在具有相同的桶级极性的所有逻辑信道中标识具有相同优先级的逻辑信道。 基于每个识别的逻辑信道的数据缓冲器大小和/或桶级别,UE选择至少一个识别的逻辑信道进行调度。

    SCHEDULING OF LOGICAL CHANNELS IN A WIRELESS COMMUNICATION SYSTEM
    5.
    发明申请
    SCHEDULING OF LOGICAL CHANNELS IN A WIRELESS COMMUNICATION SYSTEM 有权
    在无线通信系统中调度逻辑信道

    公开(公告)号:US20120120880A1

    公开(公告)日:2012-05-17

    申请号:US12944413

    申请日:2010-11-11

    IPC分类号: H04W72/04

    摘要: Techniques for scheduling logical channels for data transmission are described. In one design, a user equipment (UE) is configured with a plurality of logical channels for sending data on the uplink. Each logical channel is associated with a priority and a data buffer size. The UE maintains a token bucket for each logical channel. In each scheduling interval or when an uplink grant is received, the UE determines a bucket level (which may be a positive value or a non-positive value) for each of the plurality of logical channels. The UE ascertains logical channels with bucket levels of the same polarity and then identifies logical channels of the same priority among all logical channels with the same bucket level polarity. The UE selects at least one identified logical channel for scheduling based on the data buffer size and/or the bucket level for each identified logical channel.

    摘要翻译: 描述用于调度用于数据传输的逻辑信道的技术。 在一种设计中,用户设备(UE)配置有用于在上行链路上发送数据的多个逻辑信道。 每个逻辑信道与优先级和数据缓冲区大小相关联。 UE维护每个逻辑信道的令牌桶。 在每个调度间隔中,或者当接收到上行链路许可时,UE针对多个逻辑信道中的每个逻辑信道确定桶级(其可以是正值或非正值)。 UE确定具有相同极性的级别的逻辑信道,然后在具有相同的桶级极性的所有逻辑信道中标识具有相同优先级的逻辑信道。 基于每个识别的逻辑信道的数据缓冲器大小和/或桶级别,UE选择至少一个识别的逻辑信道进行调度。

    Detection for end of service using dynamic inactivity timer thresholds
    7.
    发明授权
    Detection for end of service using dynamic inactivity timer thresholds 有权
    使用动态不活动定时器阈值检测服务结束

    公开(公告)号:US08385350B2

    公开(公告)日:2013-02-26

    申请号:US11743802

    申请日:2007-05-03

    IPC分类号: H04L12/28 H04W4/00

    CPC分类号: H04W76/38 H04L69/28 H04W28/12

    摘要: Techniques to detect for end of service using dynamic inactivity timer thresholds are described. An access terminal establishes a radio connection for one or more applications. Data and signaling for the application(s) may be sent on one or more first flows (e.g., RLP flows) that may carry any number of second flows (e.g., IP flows). The access terminal determines a dynamic inactivity timer threshold for each first flow, e.g., based on at least one inactivity timer threshold for at least one second flow mapped to that first flow. The access terminal determines whether each first flow is inactive based on the inactivity timer threshold for that first flow, e.g., declares each first flow to be inactive if no activity is detected on that first flow for a period exceeding the inactivity timer threshold. The access terminal closes the radio connection when all first flow(s) are determined to be inactive.

    摘要翻译: 描述使用动态不活动定时器阈值检测服务结束的技术。 接入终端为一个或多个应用建立无线电连接。 用于应用的数据和信令可以在可携带任何数量的第二流(例如,IP流)的一个或多个第一流(例如,RLP流)上发送。 接入终端例如基于映射到该第一流的至少一个第二流的至少一个不活动定时器阈值来确定每个第一流的动态不活动定时器阈值。 接入终端基于该第一流的不活动定时器阈值来确定每个第一流是否不活动,例如,如果在超过非活动定时器阈值的时间段内在该第一流上没有检测到活动,则将每个第一流声明为不活动。 当所有第一流被确定为不活动时,接入终端关闭无线电连接。

    Quality of service configuration for wireless communication
    8.
    发明授权
    Quality of service configuration for wireless communication 有权
    无线通信服务质量配置

    公开(公告)号:US08982713B2

    公开(公告)日:2015-03-17

    申请号:US11687569

    申请日:2007-03-16

    IPC分类号: H04W28/24 H04W76/04

    CPC分类号: H04W28/24 H04W76/20

    摘要: Techniques to configure quality of service (QoS) for communication are described. An access terminal configures a first QoS profile prior to a call. This QoS profile is for a set of QoS parameters that provides certain QoS. The access terminal thereafter establishes (e.g., originates or terminates) a call with an access network. If the first QoS profile is appropriate for the call, then QoS is not reconfigured. However, the access terminal may determine that a second QoS profile is to be used for the call, e.g., based on a format or a rate set supported by a remote/other terminal for the call. The access terminal would then configure the second QoS profile during the call. The access terminal may exchange data in accordance with (a) the first QoS profile before the second QoS profile is configured and activated and (b) the second QoS profile after it is configured and activated.

    摘要翻译: 描述了配置通信服务质量(QoS)的技术。 接入终端在呼叫之前配置第一QoS简档。 该QoS配置文件用于提供某些QoS的一组QoS参数。 接入终端此后建立(例如,发起或终止)与接入网络的呼叫。 如果第一个QoS配置文件适用于该呼叫,则不重新配置QoS。 然而,接入终端可以例如基于用于该呼叫的远程/其他终端支持的格式或速率集合来确定第二QoS简档将用于该呼叫。 然后,接入终端将在呼叫期间配置第二QoS简档。 在配置和激活第二QoS简档之前,接入终端可以根据(a)第一QoS简档交换数据,以及(b)配置和激活第二QoS简档之后的第二QoS简档。

    RESOURCE MANAGEMENT FOR A WIRELESS DEVICE
    9.
    发明申请
    RESOURCE MANAGEMENT FOR A WIRELESS DEVICE 有权
    无线设备资源管理

    公开(公告)号:US20100318660A1

    公开(公告)日:2010-12-16

    申请号:US12708319

    申请日:2010-02-18

    IPC分类号: G06F15/173

    摘要: Techniques for managing resources on a wireless device are described. In an aspect, congestion of resources on the wireless device may be detected. If any resources are deemed to be congested, then congestion of the congested resources may be relieved by controlling utilization of the congested resources by at least one client. In one design, flow control may be performed for at least one data flow to relieve congestion of the congested resources. A pattern indicative of when to send messages enabling data transmission and when to send messages disabling data transmission may be selected. Messages may then be sent in accordance with the pattern to control transmission of data for the at least one data flow. Another pattern with a higher ON fraction or a lower ON fraction may be selected based on usage of the congested resources.

    摘要翻译: 描述了用于在无线设备上管理资源的技术。 在一方面,可以检测无线设备上的资源拥塞。 如果任何资源被认为是拥塞的,则可以通过控制至少一个客户端对拥塞的资源的利用来减轻拥塞资源的拥塞。 在一种设计中,可以对至少一个数据流执行流控制以减轻拥塞资源的拥塞。 可以选择指示何时发送能够进行数据传输的消息以及何时发送禁用数据传输的消息的模式。 然后可以根据模式发送消息以控制用于至少一个数据流的数据的传输。 可以基于拥塞资源的使用来选择具有较高ON分数或较低ON分数的另一模式。

    HOME BASE STATION
    10.
    发明申请
    HOME BASE STATION 有权
    首页基地

    公开(公告)号:US20080305772A1

    公开(公告)日:2008-12-11

    申请号:US12132552

    申请日:2008-06-03

    IPC分类号: H04M1/66

    摘要: Systems and methodologies are described that effectuate establishment of an IPSec tunnel for utilization in a wireless communication environment. IPSec establishment procedures on home base stations can be used to establish IPSec tunnels between home base stations situated on open access sectors of wireless communication environments and packet data interworking function components positioned at the contiguity of secured segments of the wireless communication environments. Moreover, high rate packet data point-to-point protocol challenge-handshake authentication protocols can be directed through the IPSec tunnels to facilitate authentication of access terminals associated with the home base stations in order to facilitate further communications with components dispersed within secure areas of wireless communication environments. Further, international mobile subscriber identities (IMSI) affiliated with access terminals associated with home base stations can be used to identify packet data serving nodes with which to establish communications between home base stations and packet data serving nodes.

    摘要翻译: 描述了实现在无线通信环境中利用的IPSec隧道的建立的系统和方法。 可以使用家庭基站上的IPSec建立程序来建立位于无线通信环境的开放接入扇区的家庭基站和位于无线通信环境的安全段的邻接性的分组数据互通功能组件之间的IPSec隧道。 此外,高速率分组数据点对点协议挑战 - 握手认证协议可以通过IPSec隧道引导,以便于与家庭基站相关联的接入终端的认证,以便于进一步与分散在无线安全区域内的组件进行通信 通信环境。 此外,附属于与家庭基站相关联的接入终端的国际移动用户标识(IMSI)可以用于识别用于建立家庭基站和分组数据服务节点之间的通信的分组数据服务节点。