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    • 2. 发明申请
    • Methods and Network Nodes in a Telecommunication System
    • 电信系统中的方法和网络节点
    • US20140044023A1
    • 2014-02-13
    • US14113424
    • 2011-10-06
    • Muhammad KazmiOlav QuesethErika Tejedor
    • Muhammad KazmiOlav QuesethErika Tejedor
    • H04L5/14
    • H04W52/386H04L5/14H04W8/10H04W28/18H04W52/0209H04W52/367H04W88/02Y02D70/1244Y02D70/1262Y02D70/142
    • A method in a user equipment (140) for controlling transmission from the user equipment (140), a method in a first radio network node (110) for selecting one or more radio emission control parameters and a user equipment (140) and a first radio network node (110) configured to perform the methods are provided. The user equipment (140) sends (C001), to the first radio network node (110), one or more parameters associated with supported duplexer arrangement characteristics of the user equipment (140) for a first operating frequency band. The first radio network node (110) selects (C004) said one or more radio emission control parameters based on said one or more parameters associated with said supported duplexer arrangement characteristics of the user equipment (140) for the first operating frequency band. The user equipment (140) receives (C005) and applies (C006) said one or more radio emission control parameters from the first radio network node (110) such as to control transmission from the user equipment (140).
    • 一种用于控制来自用户设备(140)的传输的用户设备(140)中的方法,用于选择一个或多个无线电发射控制参数的第一无线电网络节点(110)中的方法和用户设备(140)以及第一 提供被配置为执行方法的无线电网络节点(110)。 用户设备(140)向第一无线电网络节点(110)发送与用于第一工作频带的用户设备(140)的支持的双工器布置特性相关联的一个或多个参数。 第一无线电网络节点(110)基于与用于第一工作频带的用户设备(140)的支持的双工器布置特性相关联的所述一个或多个参数来选择(C004)所述一个或多个无线电发射控制参数。 用户设备(140)从第一无线电网络节点(110)接收(C005)并应用(C006)所述一个或多个无线电发射控制参数,以控制来自用户设备(140)的传输。
    • 3. 发明授权
    • Methods and network nodes in a telecommunication system
    • 电信系统中的方法和网络节点
    • US09480031B2
    • 2016-10-25
    • US14113424
    • 2011-10-06
    • Muhammad KazmiOlav QuesethErika Tejedor
    • Muhammad KazmiOlav QuesethErika Tejedor
    • H04W52/38H04W28/18H04L5/14H04W52/02H04W52/36H04W88/02H04W8/10
    • H04W52/386H04L5/14H04W8/10H04W28/18H04W52/0209H04W52/367H04W88/02Y02D70/1244Y02D70/1262Y02D70/142
    • A method in a user equipment for controlling transmission from the user equipment, a method in a first radio network node for selecting one or more radio emission control parameters and a user equipment, and a first radio network node configured to perform the methods are provided. The user equipment sends, to the first radio network node, one or more parameters associated with supported duplexer arrangement characteristics of the user equipment for a first operating frequency band. The first radio network node selects the one or more radio emission control parameters based on the one or more parameters associated with the supported duplexer arrangement characteristics of the user equipment for the first operating frequency band. The user equipment receives and applies the one or more radio emission control parameters from the first radio network node such as to control transmission from the user equipment.
    • 提供了一种用于控制来自用户设备的传输的用户设备中的方法,用于选择一个或多个无线电发射控制参数的第一无线电网络节点中的方法和用户设备,以及被配置为执行所述方法的第一无线电网络节点。 用户设备向第一无线电网络节点发送与用于第一工作频带的用户设备的支持的双工器布置特性相关联的一个或多个参数。 第一无线电网络节点基于与用于第一工作频带的用户设备的支持的双工器布置特性相关联的一个或多个参数来选择一个或多个无线电发射控制参数。 用户设备从第一无线电网络节点接收并应用一个或多个无线电发射控制参数,以便控制来自用户设备的传输。
    • 5. 发明授权
    • Numbering of radio frequency channels
    • 射频频道编号
    • US08195179B2
    • 2012-06-05
    • US12673720
    • 2008-03-25
    • Olav QuesethMuhammad KazmiJohan Skold
    • Olav QuesethMuhammad KazmiJohan Skold
    • H04W72/00
    • H04W4/06
    • The present invention relates to a method and arrangements where each frequency channel is assigned a primary (global) number and a secondary (in-band) number. In accordance with embodiments of the present invention the primary number for one frequency channel (e.g. unicast downlink channel) and one or more secondary channel numbers to account for the corresponding unicast uplink and/or for one or more MBSFN channels are signalled. The primary (global) number indicates the band and frequency channel number while the secondary (in-band) number indicates the frequency channel within the relevant frequency band.
    • 本发明涉及一种方法和装置,其中每个频道被分配一个主(全局)号和二次(带内)号。 根据本发明的实施例,用信号通知用于一个频道(例如单播下行链路信道)的主号码和用于考虑对应的单播上行链路和/或一个或多个MBSFN信道的一个或多个次要信道号码。 主(全局)数字表示频带和频道号,而辅助(带内)号表示相关频带内的频道。
    • 7. 发明授权
    • Capability reporting for relay nodes in wireless networks
    • 无线网络中继节点的能力报告
    • US09191098B2
    • 2015-11-17
    • US13147219
    • 2011-06-16
    • Muhammad KazmiOlav Queseth
    • Muhammad KazmiOlav Queseth
    • H04B7/155
    • H04B7/15542
    • An out-of-band relay node (800) reports its composite operating band capability to a donor base station or to another network node. The reported information indicates frequency band support separately for each of the backhaul and access links, which may operate over different frequency bands. In some embodiments, a controlling network node (700) such as a donor base station, an O&M node, an OSS node, a SON node, or another relay node, requests the relay node to report its backhaul link and access link operating frequency band capabilities to the network node. A network node (700) that receives the frequency capability information may use the information to select appropriate frequency bands for access and backhaul link operation and to configure the relay node accordingly. The received frequency band capability information may also be used for one or more network management functions such as radio resources management, network planning, dimensioning, and coverage enhancement.
    • 带外中继节点(800)将其复合工作频带能力报告给施主基站或另一网络节点。 所报告的信息分别指示可以在不同频带上操作的每个回程和接入链路的频带支持。 在一些实施例中,诸如施主基站,O&M节点,OSS节点,SON节点或另一中继节点的控制网络节点(700)请求中继节点报告其回程链路和接入链路工作频带 网络节点的能力。 接收频率能力信息的网络节点(700)可以使用该信息来选择用于接入和回程链路操作的适当频带,并相应地配置中继节点。 所接收的频带能力信息也可以用于一个或多个网络管理功能,例如无线电资源管理,网络规划,尺寸和覆盖增强。
    • 9. 发明申请
    • Capability Reporting for Relay Nodes in Wireless Networks
    • 无线网络中继节点的能力报告
    • US20120184204A1
    • 2012-07-19
    • US13147219
    • 2011-06-16
    • Muhammad KazmiOlav Queseth
    • Muhammad KazmiOlav Queseth
    • H04B7/14
    • H04B7/15542
    • An out-of-band relay node (800) reports its composite operating band capability to a donor base station or to another network node. The reported information indicates frequency band support separately for each of the backhaul and access links, which may operate over different frequency bands. In some embodiments, a controlling network node (700) such as a donor base station, an O&M node, an OSS node, a SON node, or another relay node, requests the relay node to report its backhaul link and access link operating frequency band capabilities to the network node. A network node (700) that receives the frequency capability information may use the information to select appropriate frequency bands for access and backhaul link operation and to configure the relay node accordingly. The received frequency band capability information may also be used for one or more network management functions such as radio resources management, network planning, dimensioning, and coverage enhancement.
    • 带外中继节点(800)将其复合工作频带能力报告给施主基站或另一网络节点。 所报告的信息分别指示可以在不同频带上操作的每个回程和接入链路的频带支持。 在一些实施例中,诸如施主基站,O&M节点,OSS节点,SON节点或另一中继节点的控制网络节点(700)请求中继节点报告其回程链路和接入链路工作频带 网络节点的能力。 接收频率能力信息的网络节点(700)可以使用该信息来选择用于接入和回程链路操作的适当频带,并相应地配置中继节点。 所接收的频带能力信息也可以用于一个或多个网络管理功能,例如无线电资源管理,网络规划,尺寸和覆盖增强。
    • 10. 发明申请
    • Bandwidth Configuration and Reporting for Relay Links
    • 中继链路的带宽配置和报告
    • US20120176958A1
    • 2012-07-12
    • US13390393
    • 2011-12-28
    • Olav QuesethMuhammad Kazmi
    • Olav QuesethMuhammad Kazmi
    • H04W72/04H04B7/14
    • H04W48/08H04B7/15542H04W24/02H04W28/18H04W84/047
    • Embodiments describe methods and nodes for configuring multiple links of a relay node in a communication system. Another node transmits a configuration signal toward the relay node including at least one bandwidth to be used to configure the multiple links of the relay. The at least one bandwidth can be the same for each of the multiple links or can be different for each of the multiple links. The multiple links can, for example, be the access link (i.e., the link via which user equipment communicates with the relay node over an air interface) and the backhaul link (i.e., the link via which the relay node communicates with the rest of the network, e.g., connected to a donor node).
    • 实施例描述了用于在通信系统中配置中继节点的多个链路的方法和节点。 另一个节点向中继节点发送配置信号,包括要用于配置中继的多个链路的至少一个带宽。 对于多个链路中的每个链路,至少一个带宽可以相同,或者对于多个链路中的每个链路可以是不同的。 例如,多个链路可以是接入链路(即,用户设备经由空中接口与中继节点进行通信的链路)和回程链路(即,中继节点与其余部分进行通信的链路) 网络,例如,连接到供体节点)。