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    • 2. 发明申请
    • Contention Based Access Optimization
    • 基于竞争的访问优化
    • US20120300744A1
    • 2012-11-29
    • US13578935
    • 2010-02-15
    • Anna LarmoRiikka SusitaivalStefan Henrik Andreas Wager
    • Anna LarmoRiikka SusitaivalStefan Henrik Andreas Wager
    • H04W72/14
    • H04W72/1284H04W24/10H04W28/06H04W72/1242
    • The mobile station described herein comprises a transmission buffer, a receiver, a transmitter, and a controller. The controller triggers a scheduling request and buffer status report when data enters the transmission buffer. When the receiver receives a contention-based scheduling grant allocating contention-based uplink resources, the transmitter transmits one or more data packets retrieved from the transmission buffer along with the buffer status report on the contention-based resources to the network station. If one or more data packets remain in the transmission buffer after transmission of the buffer status report on the contention-based resources, the controller maintains the pending status of the buffer status report and the corresponding scheduling request.
    • 本文描述的移动台包括发送缓冲器,接收器,发送器和控制器。 当数据进入传输缓冲区时,控制器触发调度请求和缓冲状态报告。 当接收机接收到基于竞争的调度许可分配基于争用的上行链路资源时,发射机将从发送缓冲器检索的一个或多个数据分组连同关于基于竞争的资源的缓冲器状态报告发送到网络站。 如果在基于竞争资源的缓冲器状态报告传输之后,一个或多个数据包保留在发送缓冲器中,则控制器保持缓冲状态报告的挂起状态和相应的调度请求。
    • 7. 发明授权
    • Contention based access optimization
    • 基于竞争的访问优化
    • US09185722B2
    • 2015-11-10
    • US13578935
    • 2010-02-15
    • Anna LarmoRiikka SusitaivalStefan Henrik Andreas Wager
    • Anna LarmoRiikka SusitaivalStefan Henrik Andreas Wager
    • H04W72/14H04W72/12H04W24/10H04W28/06
    • H04W72/1284H04W24/10H04W28/06H04W72/1242
    • The mobile station described herein comprises a transmission buffer, a receiver, a transmitter, and a controller. The controller triggers a scheduling request and buffer status report when data enters the transmission buffer. When the receiver receives a contention-based scheduling grant allocating contention-based uplink resources, the transmitter transmits one or more data packets retrieved from the transmission buffer along with the buffer status report on the contention-based resources to the network station. If one or more data packets remain in the transmission buffer after transmission of the buffer status report on the contention-based resources, the controller maintains the pending status of the buffer status report and the corresponding scheduling request.
    • 本文描述的移动台包括发送缓冲器,接收器,发送器和控制器。 当数据进入传输缓冲区时,控制器触发调度请求和缓冲状态报告。 当接收机接收到基于竞争的调度许可分配基于争用的上行链路资源时,发射机将从发送缓冲器检索的一个或多个数据分组连同关于基于竞争的资源的缓冲器状态报告发送到网络站。 如果在基于竞争资源的缓冲器状态报告传输之后,一个或多个数据包保留在发送缓冲器中,则控制器保持缓冲状态报告的挂起状态和相应的调度请求。
    • 9. 发明授权
    • System and method for implementing a semi reliable retransmission protocol
    • 实现半可靠重传协议的系统和方法
    • US06519223B1
    • 2003-02-11
    • US09287392
    • 1999-04-06
    • Stefan Henrik Andreas WagerReiner Ludwig
    • Stefan Henrik Andreas WagerReiner Ludwig
    • H04L118
    • H04L1/1809H04L1/1812H04L1/1877H04L1/188
    • A telecommunications system and method is disclosed for implementing a semi-reliable retransmission protocol that utilizes both selective repeat Automatic Repeat Request (ARQ) and segmentation and assembly of data packets. The new semi-reliable retransmission protocol includes a timer based triggering of a retransmission timeout for retransmission protocols, which allows the retransmission timeout to become insensitive to variations in the channel rate. In addition, the retransmission timeout can be defined based upon the maximum delay allowable for the retransmission of corrupted data packets over the air interface. For every data packet received a timer monitoring the transmission time of the data packet is initialized. If the timer elapses for the data packet this data packet is marked as discarded in the transmitter, and a request is sent to the receiver to ensure that transmissions carrying that data packet are discarded in the receiver.
    • 公开了用于实现半可靠重传协议的电信系统和方法,其利用选择性重复自动重传请求(ARQ)以及数据分组的分段和组合。 新的半可靠重传协议包括基于定时器触发重传协议的重传超时,这允许重传超时对信道速率的变化不敏感。 另外,可以基于通过空中接口重传损坏的数据分组所允许的最大延迟来定义重传超时。 对于接收到的每个数据包,定时器监视数据包的传输时间被初始化。 如果数据分组经过了定时器,则该数据分组在发射机中被标记为丢弃,并且向接收机发送请求,以确保在接收机中丢弃携带该数据分组的传输。