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    • 32. 发明申请
    • Handling of Acknowledgement Messages in a Relay Network Node
    • 处理中继网络节点中的确认消息
    • US20120224574A1
    • 2012-09-06
    • US13346156
    • 2012-01-09
    • Christian HoymannJessica ÖstergaardRiikka Susitaival
    • Christian HoymannJessica ÖstergaardRiikka Susitaival
    • H04L12/56
    • H04L1/1607H04L1/1822H04L1/1896H04L5/0053H04L2001/0097
    • The invention proposes a novel method for handling acknowledgement messages between a first protocol layer (L1) and a second protocol layer (L2) in a network node operating as a relay network node (RN). The first protocol layer (L1) is lower with respect to the second protocol layer (L2). The acknowledgement messages (ACK) are related to Automatic Repeat Request (ARQ) processes and the Relay Node (RN) is engaged in an Uplink transmission towards a network access node (eNB). The method comprises a step (10) of receiving a first grant indication by said network access node (eNB) that an Uplink Transmission is granted at said first protocol layer entity (L1) and a step of sending (100) towards said second protocol layer entity (L1) an indication of Acknowledgement (ACK) after receiving a first grant indication. The invention also proposes a corresponding Relay Node (RN).
    • 本发明提出了一种用于处理作为中继网络节点(RN)的网络节点中的第一协议层(L1)和第二协议层(L2)之间的确认消息的新方法。 第一协议层(L1)相对于第二协议层(L2)较低。 确认消息(ACK)与自动重传请求(ARQ)过程相关,并且中继节点(RN)参与到网络接入节点(eNB)的上行链路传输。 该方法包括步骤(10),接收所述网络接入节点(eNB)的第一授权指示,在所述第一协议层实体(L1)上授权上行传输,以及向所述第二协议层 实体(L1)在接收到第一授权指示之后,确认(ACK)的指示。 本发明还提出了一种相应的中继节点(RN)。
    • 35. 发明授权
    • Dynamic configuration of subframes in a radio communications system
    • 无线电通信系统中子帧的动态配置
    • US09532369B2
    • 2016-12-27
    • US14385536
    • 2012-03-22
    • Riikka SusitaivalDavid AstelyErik Eriksson
    • Riikka SusitaivalDavid AstelyErik Eriksson
    • H04W72/12H04W72/04H04L5/14
    • H04W72/1205H04L5/1469H04W72/0446
    • The technology disclosed provides the ability for a subframe to be dynamically configured in time division duplex (TDD) communications between a UE radio terminal and a radio network node. A frame structure includes one or more subframes preconfigured as a downlink subframe, one or more subframes preconfigured as an uplink subframe, and one or more dynamically configurable subframes. Each dynamically configurable subframe includes a guard time period and at least a downlink part for transporting a dynamically configurable amount of downlink information, and in some embodiments, uplink information. A configuration for dynamically configurable subframes is determined for transmission and/or reception between the UE radio terminal and the radio network node.
    • 所公开的技术提供了在UE无线电终端和无线电网络节点之间的时分双工(TDD)通信中动态配置子帧的能力。 帧结构包括预配置为下行链路子帧的一个或多个子帧,预配置为上行链路子帧的一个或多个子帧以及一个或多个可动态配置的子帧。 每个动态可配置的子帧包括保护时间周期和用于传送动态可配置量的下行链路信息的至少下行链路部分,并且在一些实施例中包括上行链路信息。 确定用于可动态配置的子帧的配置用于UE无线电终端和无线电网络节点之间的发送和/或接收。
    • 36. 发明授权
    • Controlling network accesses by radio terminals associated with access classes
    • 控制与访问类相关联的无线电终端的网络访问
    • US09215645B2
    • 2015-12-15
    • US13364506
    • 2012-02-02
    • Riikka Susitaival
    • Riikka Susitaival
    • H04W48/06H04W74/08H04W48/08
    • H04W48/06H04W48/08H04W74/0875
    • A terminal's access to a network over a radio interface using access resources is controlled to reduce network load. The terminal is associated with one of a set of access classes and receives information from the network about limited access resources and permitted access classes. Terminals not associated with a permitted access class are prohibited from using the limited access resources. The terminal determines a first set of time periods during which available access resources, permitted for use by the access class of the terminal, may be used by the terminal to access the radio network. The first time period set is different from other sets of time periods permitted for use by other access classes. The terminal communicates using the available access resources during the first set of time periods to reduce network load.
    • 控制终端通过无线接口使用接入资源对网络的访问,以减少网络负载。 终端与一组接入类别中的一个相关联,并且从网络接收关于有限的接入资源和允许的接入类的信息。 不允许与允许访问类相关联的终端使用有限的访问资源。 终端确定第一组时间段,在该第一组时间段期间,终端访问类别允许使用的可用接入资源可被终端接入无线电网络。 第一个时间段与其他访问类允许使用的其他时间段不同。 终端在第一组时间段期间使用可用接入资源进行通信,以减少网络负载。
    • 39. 发明申请
    • DYNAMIC CONFIGURATION OF SUBFRAMES IN A RADIO COMMUNICATIONS SYSTEM
    • 无线电通信系统中子帧的动态配置
    • US20150043392A1
    • 2015-02-12
    • US14385536
    • 2012-03-22
    • Riikka SusitaivalDavid AstelyErik Eriksson
    • Riikka SusitaivalDavid AstelyErik Eriksson
    • H04W72/12H04L5/14
    • H04W72/1205H04L5/1469H04W72/0446
    • The technology disclosed provides the ability for a subframe to be dynamically configured in time division duplex (TDD) communications between a UE radio terminal and a radio network node. A frame structure includes one or more subframes preconfigured as a downlink subframe, one or more subframes preconfigured as an uplink subframe, and one or more dynamically configurable subframes. Each dynamically configurable subframe includes a guard time period and at least a downlink part for transporting a dynamically configurable amount of downlink information, and in some embodiments, uplink information. A configuration for dynamically configurable subframes is determined for transmission and/or reception between the UE radio terminal and the radio network node.
    • 所公开的技术提供了在UE无线电终端和无线电网络节点之间的时分双工(TDD)通信中动态配置子帧的能力。 帧结构包括预配置为下行链路子帧的一个或多个子帧,预配置为上行链路子帧的一个或多个子帧以及一个或多个可动态配置的子帧。 每个动态可配置的子帧包括保护时间周期和用于传送动态可配置量的下行链路信息的至少下行链路部分,并且在一些实施例中包括上行链路信息。 确定用于可动态配置的子帧的配置用于UE无线电终端和无线电网络节点之间的发送和/或接收。
    • 40. 发明授权
    • Timeslot allocation method in a wireless TDD network
    • 无线TDD网络中的时隙分配方法
    • US08837335B2
    • 2014-09-16
    • US13704083
    • 2010-06-24
    • Riikka SusitaivalKonstantinos Dimou
    • Riikka SusitaivalKonstantinos Dimou
    • H04L5/14H04B7/212
    • H04W72/085H04W72/082
    • Method and arrangement in a first base station for scheduling in a TDD wireless network, which wireless network comprises the first base station serving a user equipment, and a second base station. The method comprises detecting that the second base station uses a different TDD configuration, instructing the user equipment to provide a signal strength measurement report based on a signal received from the second base station, receiving the measurement report, and allocating resources to the user equipment based on the received measurement report. Thereby is allocation of resources in TTIs not having the same uplink-downlink direction in the first base station and the second base station respectively, is avoided for the user equipment, when the received signal strength measurement report indicates that such allocation is appropriate. Also, a method and arrangement in a user equipment for scheduling in a TDD wireless network is described.
    • 用于在TDD无线网络中进行调度的第一基站中的方法和装置,该无线网络包括服务用户设备的第一基站和第二基站。 该方法包括:检测第二基站使用不同的TDD配置,指示用户设备基于从第二基站接收的信号,接收测量报告以及向用户设备分配资源来提供信号强度测量报告 在收到的测量报告。 因此,当接收信号强度测量报告指示这种分配是适当的时,由此在用户设备中避免了分别在第一基站和第二基站中具有相同上行链路 - 下行链路方向的TTI中的资源分配。 另外,描述了在TDD无线网络中进行调度的用户设备中的方法和装置。