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    • 1. 发明授权
    • LTE fingerprinting positioning references for other cellular systems
    • LTE指纹定位参考其他蜂窝系统
    • US08401570B2
    • 2013-03-19
    • US12891994
    • 2010-09-28
    • Torbjorn WigrenYlva JadingClaes Tidestav
    • Torbjorn WigrenYlva JadingClaes Tidestav
    • H04W4/02
    • H04W64/00G01S5/0252H04W36/0088
    • High precision UE position estimates derived by OTDOA positioning in an LTE network are provided to other networks (e.g., WCDMA and/or GSM), along with inter-RAT measurements performed on the other networks, to support fingerprinted positioning databases in the other networks. Signaling is provided enabling LTE UE position estimates to be used as reference points in the fingerprinting database in each of GSM control plane AECID positioning, GSM user plane AECID positioning, WCDMA control plane AECID positioning, and WCDMA user plane AECID positioning. In support thereof, inter-RAT measurement supporting the population of databases in WCDMA and GSM, using fingerprints and reference measurements in LTE; the use of OTDOA positioning to generate the LTE UE position estimates, and the required signaling are disclosed. The AECID databases in WCDMA and GSM networks do not have own-network serving cells at the top hierarchical level, since the inter-RAT measurements are performed in LTE.
    • 通过在LTE网络中的OTDOA定位导出的高精度UE位置估计被提供给其他网络(例如,WCDMA和/或GSM)以及在其他网络上执行的RAT间测量,以支持其他网络中的指纹定位数据库。 在GSM控制平面AECID定位,GSM用户平面AECID定位,WCDMA控制平面AECID定位和WCDMA用户平面AECID定位的每一个中,LTE UE位置估计被用作指纹数据库中的参考点。 在此支持下,使用LTE中的指纹和参考测量支持WCDMA和GSM中的数据库群的RAT间测量; 公开了使用OTDOA定位来生成LTE UE位置估计,以及所需的信令。 由于在LTE中执行了RAT间测量,所以WCDMA和GSM网络中的AECID数据库不具有顶级层级的自身网络服务小区。
    • 2. 发明申请
    • LTE FINGERPRINTING POSITIONING REFERENCES FOR OTHER CELLULAR SYSTEMS
    • LTE为其他蜂窝系统指纹定位参考
    • US20110077030A1
    • 2011-03-31
    • US12891994
    • 2010-09-28
    • Torbjorn WigrenYlva JadingClaes Tidestav
    • Torbjorn WigrenYlva JadingClaes Tidestav
    • H04W4/02H04W24/00
    • H04W64/00G01S5/0252H04W36/0088
    • High precision UE position estimates derived by OTDOA positioning in an LTE network are provided to other networks (e.g., WCDMA and/or GSM), along with inter-RAT measurements performed on the other networks, to support fingerprinted positioning databases in the other networks. Signaling is provided enabling LTE UE position estimates to be used as reference points in the fingerprinting database in each of GSM control plane AECID positioning, GSM user plane AECID positioning, WCDMA control plane AECID positioning, and WCDMA user plane AECID positioning. In support thereof, inter-RAT measurement supporting the population of databases in WCDMA and GSM, using fingerprints and reference measurements in LTE; the use of OTDOA positioning to generate the LTE UE position estimates, and the required signaling are disclosed. The AECID databases in WCDMA and GSM networks do not have own-network serving cells at the top hierarchical level, since the inter-RAT measurements are performed in LTE.
    • 通过在LTE网络中的OTDOA定位导出的高精度UE位置估计被提供给其他网络(例如,WCDMA和/或GSM)以及在其他网络上执行的RAT间测量,以支持其他网络中的指纹定位数据库。 在GSM控制平面AECID定位,GSM用户平面AECID定位,WCDMA控制平面AECID定位和WCDMA用户平面AECID定位的每一个中,LTE UE位置估计被用作指纹数据库中的参考点。 在此支持下,使用LTE中的指纹和参考测量支持WCDMA和GSM中的数据库群的RAT间测量; 公开了使用OTDOA定位来生成LTE UE位置估计,以及所需的信令。 由于在LTE中执行了RAT间测量,所以WCDMA和GSM网络中的AECID数据库不具有顶级层级的自身网络服务小区。
    • 3. 发明授权
    • Channel sounding using multiple sounding configurations
    • 使用多个探测配置的通道探测
    • US09300495B2
    • 2016-03-29
    • US12672324
    • 2008-06-16
    • Erik DahlmanYlva JadingStefan Parkvall
    • Erik DahlmanYlva JadingStefan Parkvall
    • H04W4/00H04L25/02H04L5/00H04L27/26
    • H04L27/2613H04L5/0051H04L25/0226
    • More than one set of sounding signal configuration parameters are determined for the same mobile terminal. The mobile terminal uses the sets of configuration parameters to generate different sounding reference signals which can be used for different purposes such as estimating timing and channel quality. In one embodiment, a method of configuring uplink sounding transmissions by mobile terminals in a wireless communication network is characterized by determining different sets of configuration parameters for sounding signal transmissions for a given mobile terminal (200). The different sets of configuration parameters are transmitted to the mobile terminal, allowing the mobile terminal to generate different sounding signals for different uses by the wireless communication network (202).
    • 确定同一移动终端的多组探测信号配置参数。 移动终端使用该组配置参数来生成可用于不同目的的不同的探测参考信号,例如估计定时和信道质量。 在一个实施例中,在无线通信网络中配置移动终端的上行链路探测传输的方法的特征在于确定用于给定移动终端(200)的用于探测信号传输的不同组配置参数。 将不同的配置参数集合发送到移动终端,允许移动终端为无线通信网络(202)的不同用途生成不同的探测信号。
    • 4. 发明授权
    • Method and arrangement for a terminal of a wireless communication network
    • 无线通信网络终端的方法和装置
    • US09030982B2
    • 2015-05-12
    • US13516730
    • 2010-12-16
    • Bengt LindoffMuhammad KazmiYlva Jading
    • Bengt LindoffMuhammad KazmiYlva Jading
    • G08C17/00H04W48/08H04W52/02
    • H04W48/08H04W52/0216Y02D70/1242Y02D70/1262Y02D70/24
    • A method of operating a terminal of a wireless communication network is disclosed, wherein the terminal operates according to a discontinuous reception mode. The wireless communication network comprises one or more wireless network nodes having at least first and second downlink transmission modes, the first downlink transmission mode comprising normal operation of a particular network node and the second downlink transmission mode comprising restricted downlink transmission of the particular network node and being applicable when the number of active terminals in the cell associated with the particular network node is less than or equal to a second mode threshold value. The method comprises detecting a cell identity for a cell associated with a wireless network node of the wireless communication system, determining a current downlink transmission mode of the wireless network node as the first or second downlink transmission mode, and adapting a time pattern based on the determined current downlink transmission mode, wherein the time pattern specifies when a receiver of the terminal is turned on. Corresponding computer program product and arrangement are also disclosed.
    • 公开了一种操作无线通信网络终端的方法,其中终端根据不连续接收模式进行操作。 所述无线通信网络包括具有至少第一和第二下行链路传输模式的一个或多个无线网络节点,所述第一下行链路传输模式包括特定网络节点的正常操作,并且所述第二下行链路传输模式包括所述特定网络节点的受限下行链路传输,以及 当与特定网络节点相关联的小区中的活动终端的数量小于或等于第二模式阈值时适用。 该方法包括检测与无线通信系统的无线网络节点相关联的小区的小区身份,确定无线网络节点的当前下行链路传输模式作为第一或第二下行链路传输模式,以及基于 确定的当前下行链路传输模式,其中所述时间模式指定所述终端的接收机何时被接通。 还公开了相应的计算机程序产品和布置。
    • 5. 发明申请
    • Scheduling Data Transmissions Between a Mobile Terminal and a Base Station in a Wireless Communications Network Using Component Carriers
    • 使用组件载体在无线通信网络中的移动终端和基站之间调度数据传输
    • US20120155407A1
    • 2012-06-21
    • US13378021
    • 2010-05-31
    • Bengt LindoffStefan AnderssonYlva JadingStefan ParkvallLars Sundström
    • Bengt LindoffStefan AnderssonYlva JadingStefan ParkvallLars Sundström
    • H04W72/12
    • A method of scheduling wireless data transmissions between a mobile terminal (701) and a base station using multiple component carrier signals is disclosed. The method comprises the steps of: receiving in the mobile terminal information from the base station indicating available component carriers; detecting in the mobile terminal at least one dynamic parameter indicative of the mobile terminal's current ability to handle component carriers having non-contiguous bandwidths; determining in the mobile terminal in dependence of the at least one dynamic parameter which of the available component carriers to utilize; and transmitting from the mobile terminal to the base station information indicating the component carriers determined to utilize. By doing this the mobile terminal may choose to limit the number of component carriers used in situations where it is disadvantageous, such as situations where the power consumption of supporting multiple component carriers is high or situations where complex hardware is needed.
    • 公开了一种使用多分量载波信号来调度移动终端(701)和基站之间的无线数据传输的方法。 该方法包括以下步骤:在移动终端中从基站接收指示可用分量载波的信息; 在移动终端中检测至少一个表示移动终端当前处理具有不连续带宽的分量载波的能力的动态参数; 根据所述至少一个动态参数在所述移动终端中确定要使用的可用分量载波中的哪一个; 以及从所述移动终端向所述基站发送指示被确定要利用的分量载波的信息。 通过这样做,移动终端可以选择限制在不利的情况下使用的分量载波的数量,例如支持多分量载波的功耗高或需要复杂硬件的情况。
    • 8. 发明授权
    • Method and arrangement for network nodes of a wireless communication network
    • 无线通信网络网络节点的方法和布置
    • US08923199B2
    • 2014-12-30
    • US13512521
    • 2010-11-30
    • Bengt LindoffYlva JadingMuhammad Kazmi
    • Bengt LindoffYlva JadingMuhammad Kazmi
    • H04W4/00H04W52/02H04W88/08
    • H04W52/0232H04W88/08Y02D70/00Y02D70/1242Y02D70/1262Y02D70/24Y02D70/25
    • A method of operating a wireless network node of a wireless communication network is disclosed. The wireless network nodes have at least first and second downlink transmission modes, the first downlink transmission mode comprising normal operation of a particular network node and being applicable when a number of active terminals in a cell associated with the particular network node is greater than a first mode threshold value, and the second downlink transmission mode comprising restricted downlink transmission of the particular network node and being applicable when the number of active terminals in the cell associated with the particular network node is less than or equal to a second mode threshold value. The method comprises transmitting a signal indicative of a current downlink transmission mode of the wireless network node. Corresponding computer program product and arrangement are also disclosed.
    • 公开了一种操作无线通信网络的无线网络节点的方法。 无线网络节点具有至少第一和第二下行链路传输模式,第一下行链路传输模式包括特定网络节点的正常操作,并且当与特定网络节点相关联的小区中的多个活动终端大于第一 模式阈值,并且所述第二下行链路传输模式包括所述特定网络节点的受限下行链路传输,并且当与所述特定网络节点相关联的小区中的活动终端的数量小于或等于第二模式阈值时适用。 该方法包括发送指示无线网络节点的当前下行链路传输模式的信号。 还公开了相应的计算机程序产品和布置。
    • 9. 发明授权
    • Methods and arrangements in a telecommunications network
    • 电信网络中的方法和安排
    • US08902811B2
    • 2014-12-02
    • US13379602
    • 2010-06-16
    • Robert BaldemairDavid AstelyErik DahlmanYlva Jading
    • Robert BaldemairDavid AstelyErik DahlmanYlva Jading
    • H04L7/00H04W92/00H04W56/00
    • H04W56/0045H04L5/001H04W56/0065
    • The present invention relates to methods and arrangements in a base station and a user equipment for determining an uplink transmission timing correction for communication in a telecommunication system in which aggregation of component carriers is applied. The base station receives a signal from the user equipment on a uplink (UL) component carrier and measures the arrival time of the signal. A timing correction of the UL transmission timing based on the arrival time of the signal is determined. Thereupon the base station determines for which of the uplink component carriers used by the user equipment the timing correction is valid. The timing correction and the validity information is sent to the user equipment. The user equipment adjusts the UL transmission timing for each UL component carrier the timing correction is valid for.
    • 本发明涉及在应用分量载波的聚合的电信系统中确定用于通信的上行链路传输定时校正的基站和用户设备中的方法和装置。 基站在上行链路(UL)分量载波上接收来自用户设备的信号,并测量信号的到达时间。 确定基于信号的到达时间的UL传输定时的定时校正。 因此,基站确定用户设备使用的哪个上行链路分量载波的定时校正是有效的。 定时校正和有效性信息被发送到用户设备。 用户设备调整定时校正有效的每个UL分量载波的UL传输定时。