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    • 3. 发明授权
    • MAC-d multiplexing in UTRAN HSDPA wireless networks
    • UTRAN HSDPA无线网络中的MAC-D复用
    • US08467421B2
    • 2013-06-18
    • US12519333
    • 2007-12-14
    • Anna LarmoStefan Henrik WagerJanne PeisaPer Johan TorsnerMats Fredrik Sågfors
    • Anna LarmoStefan Henrik WagerJanne PeisaPer Johan TorsnerMats Fredrik Sågfors
    • H04J3/04
    • H04W72/042H04B7/2603H04L1/0002H04L1/1819H04L12/4633H04W28/06H04W72/04
    • UTRAN MAC-d multiplexing of data from multiple logical channels to a single MAC-d flow is supported while reducing overhead and achieving octet alignment in MAC-d PDU length. In one embodiment, the C/T field of a multiplexed MAC-d PDU is eliminated, and the logical channels multiplexed into the MAC-d flow are mapped to a MAC-hs PQ in at least the NodeB (and preferably in the UE as well). In other embodiments, the C/T field is retained, and an octet-aligned length indicator is transmitted from the RNC to the UE. In one embodiment, the length indicator is octet-aligned by padding the MAC-d PDUs. In another embodiment, transmitters and receivers in the path from RNC to UE are configured with an offset to add to the length indicator to achieve octet alignment. The padding or offset is (8−n) bits, where n=the number of bits in C/T field.
    • 支持从多个逻辑信道到单个MAC-d流的数据的UTRAN MAC-d复用,同时减少开销并在MAC-d PDU长度内实现八位位组对准。 在一个实施例中,消除了复用的MAC-d PDU的C / T字段,并且复用到MAC-d流中的逻辑信道被映射到至少节点B(并且优选地在UE中的MAC-hs PQ) 好)。 在其他实施例中,C / T字段被保留,并且八位字节对齐的长度指示符从RNC发送到UE。 在一个实施例中,长度指示符通过填充MAC-d PDU进行八位字节对齐。 在另一个实施例中,从RNC到UE的路径中的发射机和接收机被配置有偏移量以添加到长度指示符以实现八位字节对准。 填充或偏移量为(8-n)位,其中n = C / T域中的位数。
    • 6. 发明授权
    • Avoiding stall conditions and sequence number ambiguity in an automatic repeat request protocol
    • 在自动重复请求协议中避免停顿条件和序列号模糊
    • US07187677B2
    • 2007-03-06
    • US10152986
    • 2002-05-23
    • Per Johan TorsnerJanne Peisa
    • Per Johan TorsnerJanne Peisa
    • H04L12/56
    • H04L1/1848H04L1/1819H04L1/1832H04L1/187
    • The present invention provides a stall avoidance mechanism that may be used alone or in conjunction with an ambiguity avoidance mechanism in an ARQ protocol. Both mechanisms decrease data delays and increase data throughput rates. Stall avoidance is accomplished by determining whether a stall condition exists with respect to receiving a missing data unit. In one example, only a single timer is needed to avoid stalls. Retransmission ambiguities may be avoided using a retransmission window in the transmitter and/or a receive window in the receiver. Although each mechanism may be used independently of the other, a preferred example embodiment uses a stall avoidance timer, a retransmission window in the transmitter, and a receive window in the receiver.
    • 本发明提供了可以单独使用或与ARQ协议中的模糊度回避机制结合使用的失速回避机制。 这两种机制都可以减少数据延迟并提高数据吞吐率。 通过确定关于接收丢失的数据单元是否存在失速条件来实现失速回避。 在一个示例中,仅需要一个定时器来避免停顿。 可以使用发射机中的重传窗口和/或接收机中的接收窗口来避免重传模糊。 虽然每个机制可以独立于另一个使用,但是优选示例性实施例使用失速避免定时器,发送器中的重传窗口和接收器中的接收窗口。
    • 7. 发明授权
    • Method and arrangement for transmitting a data unit in a wireless communications system
    • 用于在无线通信系统中发送数据单元的方法和装置
    • US08634315B2
    • 2014-01-21
    • US12864850
    • 2008-12-17
    • Per Johan TorsnerJanne PeisaMats SagforsStefan Wager
    • Per Johan TorsnerJanne PeisaMats SagforsStefan Wager
    • H04J1/16
    • H04W28/065H04L1/1812H04L1/1822
    • An object of the present invention is to provide a mechanism for improving coverage in a wireless communications system. The object is achieved by a method in a sending node (210) for transmitting a data unit to a receiving node (220). The data unit comprises a number of bits. The sending node (210) and the receiving node (220) are both comprised in a wireless communications system (200). According to the method, the sending node (210) obtains (606, 810) a value n associated with the data unit. Then, the sending node (210) selects (608, 814) a transmission time instance depending on n, such that a function exists that uniquely associates the selected transmission time instance with n. Finally, the sending node (210) transmits (612, 818) the data unit to the receiving node (220) in the selected transmission time instance, without the value n.
    • 本发明的目的是提供一种用于改善无线通信系统中的覆盖的机制。 该目的通过发送节点(210)中的方法来实现,用于将数据单元发送到接收节点(220)。 数据单元包括多个位。 发送节点(210)和接收节点(220)都包括在无线通信系统(200)中。 根据该方法,发送节点(210)获得(606,810)与数据单元相关联的值n。 然后,发送节点(210)根据n选择(608,814)传输时间实例,使得存在将所选择的传输时间实例与n唯一地相关联的功能。 最后,发送节点(210)将数据单元(612,818)发送到所选择的传输时间实例中的接收节点(220),而没有值n。
    • 8. 发明申请
    • Method and Arrangement for Transmitting a Data Unit in a Wireless Communications System
    • 用于在无线通信系统中发送数据单元的方法和装置
    • US20100309892A1
    • 2010-12-09
    • US12864850
    • 2008-12-17
    • Per Johan TorsnerJanne PeisaMats SagforsStefan Wager
    • Per Johan TorsnerJanne PeisaMats SagforsStefan Wager
    • H04J3/00
    • H04W28/065H04L1/1812H04L1/1822
    • An object of the present invention is to provide a mechanism for improving coverage in a wireless communications system. The object is achieved by a method in a sending node (210) for transmitting a data unit to a receiving node (220). The data unit comprises a number of bits. The sending node (210) and the receiving node (220) are both comprised in a wireless communications system (200). According to the method, the sending node (210) obtains (606, 810) a value n associated with the data unit. Then, the sending node (210) selects (608, 814) a transmission time instance depending on n, such that a function exists that uniquely associates the selected transmission time instance with n. Finally, the sending node (210) transmits (612, 818) the data unit to the receiving node (220) in the selected transmission time instance, without the value n.
    • 本发明的目的是提供一种用于改善无线通信系统中的覆盖的机制。 该目的通过发送节点(210)中的方法来实现,用于将数据单元发送到接收节点(220)。 数据单元包括多个位。 发送节点(210)和接收节点(220)都包括在无线通信系统(200)中。 根据该方法,发送节点(210)获得(606,810)与数据单元相关联的值n。 然后,发送节点(210)根据n选择(608,814)发送时间实例,使得存在将所选择的发送时间实例与n唯一地相关联的功能。 最后,发送节点(210)将数据单元(612,818)发送到所选择的传输时间实例中的接收节点(220),而没有值n。
    • 9. 发明授权
    • Method and apparatus for measurement of active user devices per quality-of-service class indicator
    • 用于每个服务质量等级指标的活动用户设备的测量的方法和装置
    • US08688073B2
    • 2014-04-01
    • US13147461
    • 2009-12-07
    • Janne PeisaOctavio Jose de Franca LimaNoel KenehanAndreas OlssonErik Westerberg
    • Janne PeisaOctavio Jose de Franca LimaNoel KenehanAndreas OlssonErik Westerberg
    • H04M11/00
    • H04W72/0486H04W24/08H04W84/042
    • Methods, apparatus, and systems for measuring, on a per-QoS-class basis, the average number of user devices active on the uplink of a wireless communication system are disclosed. In an exemplary method, a number of mobile terminals with buffered data for transmission to a base station is estimated based on received buffer status reports. An estimated quantity of active mobile terminals is calculated, based on the received buffer status reports and a number of mobile terminals for which a semi-persistent scheduling grant has been granted. In some embodiments, the estimated quantity of active mobile terminals is estimated on a per-traffic-class basis, in which case the technique includes calculating first and second estimated quantities, corresponding to mobile terminals having active data bearers for first and second traffic classes, respectively, based on the received buffer status reports and the number of mobile terminals for which a semi-persistent scheduling grant has been granted.
    • 公开了用于在基于QoS等级的基础上测量在无线通信系统的上行链路上活动的用户设备的平均数量的方法,装置和系统。 在示例性方法中,基于接收到的缓冲器状态报告来估计具有用于传输到基站的缓冲数据的多个移动终端。 基于所接收的缓冲器状态报告和已经准予了半持续调度许可的多个移动终端,计算出活动移动终端的估计数量。 在一些实施例中,基于每业务类别估计有源移动终端的估计量,在这种情况下,该技术包括计算与具有用于第一和第二业务类别的活动数据承载的移动终端对应的第一和第二估计量, 分别基于所接收的缓冲器状态报告和已经为其授予半持续调度授权的移动终端的数量。