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    • 1. 发明授权
    • Using information in multiple sub-bands to adaptively determine CQI
    • 使用多个子带中的信息自适应地确定CQI
    • US09088999B2
    • 2015-07-21
    • US13574161
    • 2010-01-27
    • Henrik AsplundPeter ÖkvistArne Simonsson
    • Henrik AsplundPeter ÖkvistArne Simonsson
    • H04L12/28H04W72/12H04L1/20H04L25/02H04L1/00H04J1/16H04W28/04
    • H04W72/1231H04L1/0023H04L1/0026H04L1/20H04L25/0226H04W28/04
    • The present solution relates to a method in a first communication node (201) for determining an indication of channel quality of a radio channel (205) between the first communication node (201) and a second communication node (203). The first communication node (201) and the second communication node (203) are comprised in a wireless communication network (200). The radio channel (205) comprises a plurality of sub bands. First, at least two channel quality reports are obtained (701) for different time instances. Each channel quality report comprises indications of channel quality of at least two of the plurality of sub bands. Then a channel quality deviation is estimated (702) for at least one of the plurality of sub bands. Further, an indication of a channel quality is determined (703) for at least one of the plurality of sub bands based on the estimated channel quality deviation.
    • 本方案涉及第一通信节点(201)中用于确定第一通信节点(201)和第二通信节点(203)之间的无线电信道(205)的信道质量的指示的方法。 第一通信节点(201)和第二通信节点(203)包括在无线通信网络(200)中。 无线电信道(205)包括多个子带。 首先,为不同的时间实例获得至少两个信道质量报告(701)。 每个信道质量报告包括多个子带中的至少两个子带的信道质量的指示。 然后,针对多个子带中的至少一个估计(702)信道质量偏差。 此外,基于所估计的信道质量偏差来确定对于多个子带中的至少一个子带的信道质量的指示(703)。
    • 2. 发明申请
    • Adaptive CQI Sub Band
    • 自适应CQI子带
    • US20120300661A1
    • 2012-11-29
    • US13574161
    • 2010-01-27
    • Henrik AsplundPeter ÖkvistArne Simonsson
    • Henrik AsplundPeter ÖkvistArne Simonsson
    • H04W24/00
    • H04W72/1231H04L1/0023H04L1/0026H04L1/20H04L25/0226H04W28/04
    • The present solution relates to a method in a first communication node (201) for determining an indication of channel quality of a radio channel (205) between the first communication node (201) and a second communication node (203). The first communication node (201) and the second communication node (203) are comprised in a wireless communication network (200). The radio channel (205) comprises a plurality of sub bands. First, at least two channel quality reports are obtained (701) for different time instances. Each channel quality report comprises indications of channel quality of at least two of the plurality of sub bands. Then a channel quality deviation is estimated (702) for at least one of the plurality of sub bands. Further, an indication of a channel quality is determined (703) for at least one of the plurality of sub bands based on the estimated channel quality deviation.
    • 本方案涉及第一通信节点(201)中用于确定第一通信节点(201)和第二通信节点(203)之间的无线电信道(205)的信道质量的指示的方法。 第一通信节点(201)和第二通信节点(203)包括在无线通信网络(200)中。 无线电信道(205)包括多个子带。 首先,为不同的时间实例获得至少两个信道质量报告(701)。 每个信道质量报告包括多个子带中的至少两个子带的信道质量的指示。 然后,针对多个子带中的至少一个估计(702)信道质量偏差。 此外,基于所估计的信道质量偏差来确定对于多个子带中的至少一个子带的信道质量的指示(703)。
    • 3. 发明授权
    • Closed loop precoding weight estimation
    • 闭环预编码权重估计
    • US09198190B2
    • 2015-11-24
    • US13575337
    • 2010-12-29
    • Peter OkvistHenrik AsplundJonas Froberg OlssonArne Simonsson
    • Peter OkvistHenrik AsplundJonas Froberg OlssonArne Simonsson
    • H04K1/10H04L27/28H04W72/12H04L1/20H04L25/02H04L1/00H04W28/04
    • H04W72/1231H04L1/0023H04L1/0026H04L1/20H04L25/0226H04W28/04
    • Embodiments herein relate to a method in a first communication node (201) for estimating pre-coding weights for transmission on a radio channel (205) between the first node (201) and a second communication node (203) in a communication network (200). The first node (201) comprises at least two transmit antennas. Each transmit antenna is configured to transmit on each of at least two sub-bands. The first node (201) obtains at least two pre-coding reports. Each pre-coding report is for a different time instance. Each pre-coding report comprises pre-coding weights or indications to pre-coding weights. The pre-coding weights are associated with each transmit antenna and with each sub-band. For each transmit antenna, the first node (201) estimates pre-coding weights for at least one of the sub-bands based on the pre-coding weights in the obtained pre-coding reports. The estimated pre-coding weights are different from a most resent of the obtained pre-coding reports.
    • 这里的实施例涉及第一通信节点(201)中的方法,用于估计在通信网络(200)中的第一节点(201)和第二通信节点(203)之间的无线电信道(205)上的传输的预编码权重 )。 第一节点(201)包括至少两个发射天线。 每个发送天线被配置为在至少两个子带中的每一个上进行发送。 第一节点(201)获得至少两个预编码报告。 每个预编码报告是针对不同的时间实例。 每个预编码报告包括预编码权重或预编码权重的指示。 预编码权重与每个发射天线和每个子带相关联。 对于每个发射天线,第一节点(201)基于所获得的预编码报告中的预编码权重估计至少一个子带的预编码权重。 估计的预编码权重与获得的预编码报告的最重要的不同。
    • 4. 发明申请
    • Closed Loop Precoding Weight Estimation
    • 闭环预编码权重估计
    • US20120314798A1
    • 2012-12-13
    • US13575337
    • 2010-12-29
    • Peter OkvistHenrik AsplundJonas Froberg OlssonArne Simonsson
    • Peter OkvistHenrik AsplundJonas Froberg OlssonArne Simonsson
    • H04L27/00
    • H04W72/1231H04L1/0023H04L1/0026H04L1/20H04L25/0226H04W28/04
    • Embodiments herein relate to a method in a first communication node (201) for estimating pre-coding weights for transmission on a radio channel (205) between the first node (201) and a second communication node (203) in a communication network (200). The first node (201) comprises at least two transmit antennas. Each transmit antenna is configured to transmit on each of at least two sub-bands. The first node (201) obtains at least two pre-coding reports. Each pre-coding report is for a different time instance. Each pre-coding report comprises pre-coding weights or indications to pre-coding weights. The pre-coding weights are associated with each transmit antenna and with each sub-band. For each transmit antenna, the first node (201) estimates pre-coding weights for at least one of the sub-bands based on the pre-coding weights in the obtained pre-coding reports. The estimated pre-coding weights are different from a most resent of the obtained pre-coding reports.
    • 这里的实施例涉及第一通信节点(201)中的方法,用于估计在通信网络(200)中的第一节点(201)和第二通信节点(203)之间的无线电信道(205)上的传输的预编码权重 )。 第一节点(201)包括至少两个发射天线。 每个发送天线被配置为在至少两个子带中的每一个上进行发送。 第一节点(201)获得至少两个预编码报告。 每个预编码报告是针对不同的时间实例。 每个预编码报告包括预编码权重或预编码权重的指示。 预编码权重与每个发射天线和每个子带相关联。 对于每个发射天线,第一节点(201)基于所获得的预编码报告中的预编码权重估计至少一个子带的预编码权重。 估计的预编码权重与获得的预编码报告的最重要的不同。
    • 5. 发明授权
    • Methods and arrangements in a wireless communication system
    • 无线通信系统中的方法和布置
    • US08320926B2
    • 2012-11-27
    • US13265945
    • 2009-05-20
    • Bo HagermanHenrik AsplundArne Simonsson
    • Bo HagermanHenrik AsplundArne Simonsson
    • H04W72/00
    • H04B7/10H04W72/048
    • The present invention relates to methods and arrangements in a wireless communication system that enable the allocation of resources to UEs based on measurements of their antenna polarization, in order to suppress the interference between different UEs at a very low overhead cost. This is achieved by a solution where the scheduling unit retrieves information about the polarization of the UE antenna configurations, and based on this information allocates radio resources to the different UEs, with the aim to minimize the interference. The scheduling unit may retrieve the information from the RBSs or from the UEs. The RBS and the UE will determine the polarization and transmit information regarding this polarization to the scheduling unit. The scheduling unit coordinates the allocation of resources with other scheduling units if necessary.
    • 本发明涉及无线通信系统中的方法和装置,其能够基于其天线极化的测量来向UE分配资源,以便以非常低的开销成本来抑制不同UE之间的干扰。 这通过解调方案来实现,其中调度单元检索关于UE天线配置的极化的信息,并且基于该信息为不同的UE分配无线电资源,目的是使干扰最小化。 调度单元可以从RBS或从UE获取信息。 RBS和UE将确定极化并将关于该极化的信息发送到调度单元。 如果需要,调度单元与其他调度单元协调资源的分配。
    • 6. 发明申请
    • Method and Arrangement for Tuning Polarizations for Orthogonally Polarized Antennas
    • 调整正交极化天线极化的方法和布置
    • US20120225625A1
    • 2012-09-06
    • US13508384
    • 2009-11-09
    • Henrik AsplundBo HagermanArne Simonsson
    • Henrik AsplundBo HagermanArne Simonsson
    • H04B1/40
    • H04B7/10H04B7/0632
    • The present invention relates to a method and a transceiver device in a wireless communication system that enable tuning of the polarization generated by a cross-polarized transmitting antenna configuration of an eNB. This is addressed by a solution where the polarization is adjusted (320) based on a quality indicator e.g. received (310) from one or more UEs. The quality indicator indicates the quality of the communication between the eNB and the UEs, and is used to determine if the adjustment of the antenna configuration is improving the quality of the communication or not. The tuning is thus an iteration (330) of the steps of adjusting (320) the polarization and of receiving (310) the quality indicator, and when the quality indicator has reached a pre-determined value, the iteration is stopped.
    • 本发明涉及无线通信系统中的方法和收发器设备,其能够调整由eNB的交叉极化发射天线配置产生的极化。 这通过基于质量指标例如调节(320)的解决方案来解决。 从一个或多个UE接收(310)。 质量指示符表示eNB与UE之间的通信的质量,并且用于确定天线配置的调整是否改善了通信的质量。 因此,调谐是调整(320)极化和接收(310)质量指示符的步骤的迭代(330),并且当质量指示符已经达到预定值时,迭代停止。
    • 8. 发明授权
    • Method and arrangement for tuning polarizations for orthogonally polarized antennas
    • 用于调谐正交极化天线的极化的方法和装置
    • US09136932B2
    • 2015-09-15
    • US13508384
    • 2009-11-09
    • Henrik AsplundBo HagermanArne Simonsson
    • Henrik AsplundBo HagermanArne Simonsson
    • H03C7/02H04B7/10H04B7/06
    • H04B7/10H04B7/0632
    • The present invention relates to a method and a transceiver device in a wireless communication system that enable tuning of the polarization generated by a cross-polarized transmitting antenna configuration of an eNB. This is addressed by a solution where the polarization is adjusted (320) based on a quality indicator e.g. received (310) from one or more UEs. The quality indicator indicates the quality of the communication between the eNB and the UEs, and is used to determine if the adjustment of the antenna configuration is improving the quality of the communication or not. The tuning is thus an iteration (330) of the steps of adjusting (320) the polarization and of receiving (310) the quality indicator, and when the quality indicator has reached a pre-determined value, the iteration is stopped.
    • 本发明涉及无线通信系统中的方法和收发器设备,其能够调整由eNB的交叉极化发射天线配置产生的极化。 这通过基于质量指标例如调节(320)的解决方案来解决。 从一个或多个UE接收(310)。 质量指示符表示eNB与UE之间的通信的质量,并且用于确定天线配置的调整是否改善了通信的质量。 因此,调谐是调整(320)极化和接收(310)质量指示符的步骤的迭代(330),并且当质量指示符已经达到预定值时,迭代停止。
    • 9. 发明授权
    • Arrangement for improved isolation between adjacent cell areas
    • 用于改善相邻细胞区域之间隔离的布置
    • US08942766B2
    • 2015-01-27
    • US13061218
    • 2008-08-28
    • Henrik AsplundBo HagermanArne Simonsson
    • Henrik AsplundBo HagermanArne Simonsson
    • H04M1/00H04B7/10H01Q1/24H01Q21/20H04B7/04
    • H04B7/10H01Q1/246H01Q21/205H04B7/0491
    • The present invention relates to a node in a wireless communication system, the node having a central point and comprising at least two antenna functions. Each antenna function is arranged to cover a corresponding sector area, the sector areas being positioned around the central point successively such that each sector area is adjacent to at least one other sector area separated by corresponding borders. The polarization of at least one of said antenna functions is variable between the borders of the corresponding sector area such that for each border, the polarizations of the antenna functions at each side of the border are essentially orthogonal at the border. The present invention also relates to a corresponding wireless communication system and corresponding antenna functions.
    • 本发明涉及无线通信系统中的节点,该节点具有中心点并且包括至少两个天线功能。 每个天线功能被布置成覆盖对应的扇区区域,扇区区域连续地围绕中心点定位,使得每个扇区区域与由对应边界分开的至少一个其他扇区区域相邻。 所述天线功能中的至少一个的极化在对应扇区区域的边界之间是可变的,使得对于每个边界,在边界的每一侧的天线的极化函数在边界处基本上是正交的。 本发明还涉及相应的无线通信系统和相应的天线功能。
    • 10. 发明申请
    • METHODS AND ARRANGEMENTS IN A WIRELESS COMMUNICATION SYSTEM
    • 无线通信系统中的方法和安排
    • US20120046039A1
    • 2012-02-23
    • US13265945
    • 2009-05-20
    • Bo HagermanHenrik AsplundArne Simonsson
    • Bo HagermanHenrik AsplundArne Simonsson
    • H04W72/04H04W74/04H04B7/24
    • H04B7/10H04W72/048
    • The present invention relates to methods and arrangements in a wireless communication system that enable the allocation of resources to UEs based on measurements of their antenna polarization, in order to suppress the interference between different UEs at a very low overhead cost. This is achieved by a solution where the scheduling unit retrieves information about the polarization of the UE antenna configurations, and based on this information allocates radio resources to the different UEs, with the aim to minimize the interference. The scheduling unit may retrieve the information from the RBSs or from the UEs. The RBS and the UE will determine the polarization and transmit information regarding this polarization to the scheduling unit. The scheduling unit coordinates the allocation of resources with other scheduling units if necessary.
    • 本发明涉及无线通信系统中的方法和装置,其能够基于其天线极化的测量来向UE分配资源,以便以非常低的开销成本来抑制不同UE之间的干扰。 这通过解调方案来实现,其中调度单元检索关于UE天线配置的极化的信息,并且基于该信息为不同的UE分配无线电资源,目的是使干扰最小化。 调度单元可以从RBS或从UE获取信息。 RBS和UE将确定极化并将关于该极化的信息发送到调度单元。 如果需要,调度单元与其他调度单元协调资源的分配。