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    • 12. 发明申请
    • Selecting between normal and virtual dual layer ACK/NACK
    • 在正常和虚拟双层ACK / NACK之间进行选择
    • US20090323613A1
    • 2009-12-31
    • US12459352
    • 2009-06-30
    • Frank FrederiksenTroels E. KoldingXiang Guang Che
    • Frank FrederiksenTroels E. KoldingXiang Guang Che
    • H04W4/00
    • H04L5/0055H04L1/1621H04L1/1692H04L1/1861H04L5/0053H04W24/08H04W72/042
    • An allocation of downlink resources is received, which are monitored on I layers for data. A resource-specific bit (ACK/NACK) is generated for each of those resources. From a pattern of those resources is selected an algorithm from among a first algorithm that bundles them in a first mode and a second algorithm that bundles them in a second mode. The selected algorithm is used on the generated resource-specific bits that correspond to the downlink resources, bundled according to the selected mode, to generate I reply bits which are then transmitted. At the network side a NACK reply bit is received, based on a pattern of the allocated downlink resources, a first algorithm that bundles them in a first mode or a second algorithm that bundles them in a second mode is selected. A bundling window and layer combination are determined from the selected algorithm, which gives the resource for retransmitting the NACK'd data.
    • 接收下行链路资源的分配,在I层上监视数据。 为这些资源中的每一个生成资源特定位(ACK / NACK)。 从这些资源的模式中选择来自在第一模式中捆绑它们的第一算法和在第二模式中将它们捆绑的第二算法的算法。 所选择的算法用于根据所选模式捆绑的对应于下行链路资源的生成的资源特定比特,以产生随后被发送的I个应答比特。 在网络侧,基于分配的下行链路资源的模式来接收NACK应答位,选择以第一模式捆绑它们的第一算法或者以第二模式捆绑它们的第二算法。 从所选择的算法确定捆绑窗口和层组合,其给出用于重传NACK'd数据的资源。
    • 14. 发明申请
    • User Specific Load Balancing
    • 用户特定负载平衡
    • US20110010598A1
    • 2011-01-13
    • US12681687
    • 2008-09-30
    • Hai Ming WangDa Jie JiangYuan ZhuXiang Guang CheChun Yan GaoEsa Juhani Tuomaala
    • Hai Ming WangDa Jie JiangYuan ZhuXiang Guang CheChun Yan GaoEsa Juhani Tuomaala
    • H04L1/18G06F11/14
    • H04W72/1268H04L1/1812H04L1/1822H04L1/1887H04W72/04
    • In accordance with exemplary embodiments of the invention there is a method and apparatus to detect with a hybrid automatic repeat request function a collision between an uplink packet re-transmission and a new uplink packet transmission within a hybrid automatic repeat request process, and in response, to dynamically allocating resources for transmitting the new uplink packet transmission in a different hybrid automatic repeat request process that does not collide with the uplink packet re-transmission. In accordance with other exemplary embodiments of the invention, there is a method and apparatus to transmit a packet re-transmission in a hybrid automatic repeat request process using a semi-persistently scheduled uplink resource, and responsive to receiving a dynamic allocation of a different hybrid automatic repeat request process, to transmit a new packet using the dynamically allocated different hybrid automatic repeat request process.
    • 根据本发明的示例性实施例,存在一种利用混合自动重传请求功能在混合自动重传请求过程中检测上行链路分组重发和新的上行链路分组传输之间的冲突的方法和装置, 在不与上行链路分组重传相冲突的不同混合自动重传请求过程中动态分配用于发送新的上行链路分组传输的资源。 根据本发明的其他示例性实施例,存在一种使用半持久调度的上行链路资源在混合自动重传请求过程中发送分组重传的方法和装置,并且响应于接收到不同混合动态的动态分配 自动重发请求过程,使用动态分配的不同混合自动重传请求过程传输新数据包。
    • 16. 发明授权
    • User specific load balancing
    • 用户特定的负载均衡
    • US08429480B2
    • 2013-04-23
    • US12681687
    • 2008-09-30
    • Hai Ming WangDa Jie JiangYuan ZhuXiang Guang CheChun Yan GaoEsa Juhani Tuomaala
    • Hai Ming WangDa Jie JiangYuan ZhuXiang Guang CheChun Yan GaoEsa Juhani Tuomaala
    • H04L1/16
    • H04W72/1268H04L1/1812H04L1/1822H04L1/1887H04W72/04
    • In accordance with exemplary embodiments of the invention there is a method and apparatus to detect with a hybrid automatic repeat request function a collision between an uplink packet re-transmission and a new uplink packet transmission within a hybrid automatic repeat request process, and in response, to dynamically allocating resources for transmitting the new uplink packet transmission in a different hybrid automatic repeat request process that does not collide with the uplink packet re-transmission. In accordance with other exemplary embodiments of the invention, there is a method and apparatus to transmit a packet re-transmission in a hybrid automatic repeat request process using a semi-persistently scheduled uplink resource, and responsive to receiving a dynamic allocation of a different hybrid automatic repeat request process, to transmit a new packet using the dynamically allocated different hybrid automatic repeat request process.
    • 根据本发明的示例性实施例,存在一种利用混合自动重传请求功能在混合自动重传请求过程中检测上行链路分组重发和新的上行链路分组传输之间的冲突的方法和装置, 在不与上行链路分组重传相冲突的不同混合自动重传请求过程中动态分配用于发送新的上行链路分组传输的资源。 根据本发明的其他示例性实施例,存在一种使用半持久调度的上行链路资源在混合自动重传请求过程中发送分组重传的方法和装置,并且响应于接收到不同混合动态的动态分配 自动重发请求过程,使用动态分配的不同混合自动重传请求过程传输新数据包。
    • 20. 发明授权
    • Optimized uplink control signaling for extended bandwidth
    • 优化的上行链路控制信令用于扩展带宽
    • US09136998B2
    • 2015-09-15
    • US13120475
    • 2009-09-23
    • Xiang Guang CheEsa TirrolaKari Pajukoski
    • Xiang Guang CheEsa TirrolaKari Pajukoski
    • H04L5/00H04W72/04
    • H04L5/0055H04L1/1861H04L5/001H04L5/0053H04L5/0092H04W72/0413H04W72/042
    • According to an embodiment a user equipment UE transmits uplink control signals using one or more chunks of uplink frequency spectrum that contain a simultaneous uplink shared channel; and for the case where there is no simultaneous uplink shared channel available, the UE transmits uplink control signals using only a single chunk of uplink frequency spectrum. In various embodiments the control signals are ACK/NACK control signals transmitted on an uplink control channel, the uplink shared channel comprises a chunk-specific uplink control channel, and each chunk comprises a component carrier of a LTE-A system. Downlink assignment index bits may be included in a downlink grant to the UE which indicates how many chunks in total are allocated in a current downlink subframe. The UE can also use ACK/NACK control signal bundling over chunks in addition to either or both of chunk-specific ACK/NACK control signals or ACK/NAK control signal multiplexing.
    • 根据实施例,用户设备UE使用包含同时上行链路共享信道的上行链路频谱的一个或多个块来发送上行链路控制信号; 并且对于没有同时的上行链路共享信道可用的情况,UE仅使用单个上行链路频谱块发送上行链路控制信号。 在各种实施例中,控制信号是在上行链路控制信道上发送的ACK / NACK控制信号,上行链路共享信道包括特定于块的上行链路控制信道,并且每个块包括LTE-A系统的分量载波。 下行链路分配索引比特可以包括在UE的下行链路许可中,该下行链路授权指示在当前下行链路子帧中分配了多少组块。 除了块特定的ACK / NACK控制信号或ACK / NAK控制信号复用中的一个或两者之外,UE还可以使用块上的ACK / NACK控制信号捆绑。