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    • 1. 发明申请
    • ACTIVATION OF DRX PARAMETERS
    • DRX参数的激活
    • WO2016186555A1
    • 2016-11-24
    • PCT/SE2016/050441
    • 2016-05-17
    • TELEFONAKTIEBOLAGET LM ERICSSON (PUBL)
    • BERGQUIST, GunnarLIE CHIN CHEONG, Patrick
    • H04W52/02H04W76/04
    • H04W76/28H04W8/22H04W52/0216Y02D70/00Y02D70/1262Y02D70/142Y02D70/146Y02D70/24
    • Methods and apparatus are described of changing the discontinuous reception (DRX) configuration for a connection between a mobile device (50) and a base station (20) that reduces the likelihood of a dropped connection. A mobile device (50) receives updated configuration parameters for the connection from a base station. A mobile device (50) receives updated configuration parameters for the connection from a base station (20). The mobile device (50) postpones the adoption of the new configuration parameters and continues using previous configuration parameters for the connection after receipt of the new configuration parameters until a subsequent on duration of a DRX cycle has occurred according to the previous configuration. The mobile device (50) applies the updated configuration parameters for the connection in the subsequent on duration. Thereafter, the mobile device (50) turns its receiver on and off in DRX mode according to the new DRX configuration.
    • 描述了改变用于移动设备(50)和基站(20)之间的连接的不连续接收(DRX)配置的方法和装置,其降低了丢弃的连接的可能性。 移动设备(50)从基站接收用于连接的更新的配置参数。 移动设备(50)从基站(20)接收用于连接的更新的配置参数。 移动设备(50)推迟采用新的配置参数,并且在接收到新配置参数之后继续使用用于连接的先前配置参数,直到根据先前配置发生DRX周期的后续开启持续时间。 移动设备(50)在随后的持续时间中应用用于连接的更新的配置参数。 此后,移动设备(50)根据新的DRX配置在DRX模式下接通和关闭接收机。
    • 5. 发明申请
    • INACTIVITY HANDLING OF DEVICES WITH DELAY-TOLERANT TRAFFIC
    • 具有延迟交通量的设备的不活动性处理
    • WO2016184861A1
    • 2016-11-24
    • PCT/EP2016/061033
    • 2016-05-17
    • TELEFONAKTIEBOLAGET LM ERICSSON (PUBL)
    • BERGQUIST, GunnarNOUAH, AhmedMARTINS, MauroLIE CHIN CHEONG, PatrickZHANG, LanddyKARLSEN, Johnny
    • H04W28/02H04W72/12
    • H04W28/0236H04W28/0205H04W28/0289H04W72/1205H04W72/1252
    • To relieve signaling congestion, UEs (30) having delay-tolerant data are moved more rapidly to the non UL synchronized state, freeing up PUCCH resources for users that have not indicated a delay-tolerance. In one embodiment, a resource conservative mode is defined for a UE (30) having delay-tolerant data (e.g., from a "background" app); otherwise, the UE (30) assumes a default mode. In one embodiment, the network sends the UE a pair of first and a second values (or indices to them) for a Time Alignment Timer, TAT (56, 66) in the UE (30). The first value - which is typically smaller than the second value - is used by the UE (30) in the resource conservative mode when the user data plane is internally concluded as being delay- tolerant or has already been confirmed to be delay-tolerant; the second value is used otherwise (i.e., in default mode). In the resource conservative mode, the shorter TAT value moves the UE from PUCCH more rapidly, and the UE (30) uses random access for infrequent scheduling requests. In the default mode, the UE (30) retains PUCCH and has low latency for scheduling requests. The network may preconfigure the pair of TAT values. The mechanism is furthermore capable of achieving a synchronized start of a TAT value, and also stopping any TAT (56, 66) that is running.
    • 为了减轻信令拥塞,具有延迟容忍数据的UE(30)更迅速地移动到非UL同步状态,释放尚未表示延迟容限的用户的PUCCH资源。 在一个实施例中,为具有延迟容忍数据(例如,从“背景”应用程序)的UE(30)定义资源保守模式; 否则,UE(30)采用默认模式。 在一个实施例中,网络向UE(30)中的时间对准定时器TAT(56,66)向UE发送一对第一和第二值(或它们的索引)。 当用户数据平面内部被确定为具有延迟容限或已经被确认为具有延迟容限时,UE(30)以资源保守模式使用第一值(其通常小于第二值)。 否则使用第二个值(即,在默认模式下)。 在资源保守模式中,较短的TAT值使UE更快地从PUCCH移动,UE(30)对不频繁的调度请求使用随机接入。 在默认模式下,UE(30)保留PUCCH并且具有用于调度请求的低等待时间。 网络可以预先配置一对TAT值。 该机构还能够实现TAT值的同步启动,并且还停止正在运行的任何TAT(56,66)。