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    • 4. 发明授权
    • Beamforming weight estimation using wideband multipath direction of arrival analysis
    • 使用宽带多径方向到达分析的波束成形权重估计
    • US08494073B2
    • 2013-07-23
    • US12502607
    • 2009-07-14
    • Genyuan WangLi GuoAhmadreza HedayatHang Jin
    • Genyuan WangLi GuoAhmadreza HedayatHang Jin
    • H04L1/02H04M1/00
    • H04B7/0617H04B7/0439H04B7/086
    • Techniques are provided for computing downlink beamforming weights based on the received data at a base station from a mobile station in a MIMO communication system. An uplink transmission is received at a plurality of antennas at a first communication device from a second communication device, where the uplink transmission comprises a plurality of uplink subbands. The uplink spatial signature is estimated for each of the plurality of uplink subbands. The uplink spatial signature is decomposed into a plurality of direction of arrival (DOA) components for each uplink subband using a transform. Data representing multiple propagation paths between the first communication device and the second communication device is computed for each DOA component. A plurality of direction of departure (DOD) components for each of a plurality of downlink subbands is computed based on the data representing the multiple propagation paths. A downlink spatial signature for each downlink subband from the plurality of DOD components is computed using an inverse of the transform. Downlink beamforming weights are computed for each of the plurality of downlink subbands based on the downlink spatial signature, where the downlink beamforming weights are for use by the first communication device when beamforming a downlink transmission via the plurality of antennas of the first communication device to the second communication device.
    • 提供了用于基于MIMO通信系统中的移动台在基站处接收到的数据来计算下行链路波束成形权重的技术。 在来自第二通信设备的第一通信设备的多个天线处接收上行链路传输,其中上行链路传输包括多个上行链路子带。 针对多个上行链路子带中的每一个估计上行链路空间特征。 使用变换将上行链路空间特征分解为每个上行链路子带的多个到达方向(DOA)分量。 针对每个DOA分量计算代表第一通信设备和第二通信设备之间的多个传播路径的数据。 基于表示多个传播路径的数据来计算多个下行链路子带中的每一个的多个出发方向(DOD)分量。 使用变换的倒数来计算来自多个DOD分量的每个下行链路子带的下行链路空间特征。 基于下行链路空间特征,针对多个下行链路子带中的每一个计算下行链路波束形成权重,其中下行链路波束赋形权重由第一通信设备使用时,当波束成形通过第一通信设备的多个天线的下行链路传输到 第二通信设备。
    • 6. 发明申请
    • Link Adaptation for Retransmission Schemes
    • 链接适应重传方案
    • US20130003564A1
    • 2013-01-03
    • US13616066
    • 2012-09-14
    • Hang JinLi GuoHanqing Lou
    • Hang JinLi GuoHanqing Lou
    • H04W24/00
    • H04L1/0034H04L1/0035
    • Link adaptive retransmission techniques are provided for use in connection with wireless communications between a first wireless communication device and a second wireless communication device. The first wireless communication device generates M packet error information values for the transmit session of a packet based on whether an acknowledgment message or a non-acknowledgment message is received from the second wireless communication device for a transmission and for previously sent transmissions even if less than M transmissions are sent by the first wireless communication device to the second wireless communication device upon completion of the transmit session. The first wireless communication device computes a retransmission fading margin based on the M packet error information values, from which an effective carrier-to-interference-plus-noise ratio is derived for selection of a modulation scheme.
    • 链路自适应重传技术被提供用于结合第一无线通信设备和第二无线通信设备之间的无线通信。 第一无线通信设备基于是否从第二无线通信设备接收到用于传输的确认消息或非确认消息,以及对于先前发送的传输,即使小于等于,也产生用于分组的发送会话的M个分组错误信息值 在发送会话完成时,M个传输由第一无线通信设备发送到第二无线通信设备。 第一无线通信设备基于M个分组误差信息值来计算重发衰落余量,从而从其导出用于选择调制方案的有效载波干扰加噪声比。
    • 7. 发明申请
    • WIRELESS LINK BACKUP SYSTEM
    • 无线链路备份系统
    • US20120276855A1
    • 2012-11-01
    • US13133579
    • 2010-06-22
    • Xiaogang YiXiang ZhouLi GuoGaoshang YaoXiaoqi Mo
    • Xiaogang YiXiang ZhouLi GuoGaoshang YaoXiaoqi Mo
    • H04B1/38
    • H04B1/74
    • A wireless link backup system, including a first device and a second device, wherein the first device comprises a first controller and at least two first wireless transceivers; the at least two first wireless transceivers have the same working parameters; and the first controller is adapted to control such that only one of the first wireless transceivers is working at a time; the second device comprises a second controller and at least two second wireless transceivers; the at least two second wireless transceivers have the same working parameters; and the second controller is adapted to control such that only one of the second wireless transceivers is working at a time; and the working parameter of the first wireless transceiver match the working parameter of the second wireless transceiver, so that wireless connection between the first wireless transceiver and the second wireless transceiver can be established.
    • 一种无线链路备份系统,包括第一设备和第二设备,其中所述第一设备包括第一控制器和至少两个第一无线收发器; 所述至少两个第一无线收发器具有相同的工作参数; 并且第一控制器适于控制使得一次只有一个第一无线收发器正在工作; 所述第二设备包括第二控制器和至少两个第二无线收发器; 所述至少两个第二无线收发器具有相同的工作参数; 并且第二控制器适于控制使得仅一个第二无线收发器一次正在工作; 并且第一无线收发器的工作参数与第二无线收发器的工作参数匹配,从而可以建立第一无线收发器与第二无线收发器之间的无线连接。
    • 8. 发明申请
    • MIMO Mode Switch Management for Beamformed MIMO Systems
    • 用于波束形成MIMO系统的MIMO模式切换管理
    • US20110124290A1
    • 2011-05-26
    • US12623932
    • 2009-11-23
    • Hanqing LouLi GuoGenyuan WangHang JinYanxin Na
    • Hanqing LouLi GuoGenyuan WangHang JinYanxin Na
    • H04B15/00
    • H04B7/0689
    • Techniques are provided herein for improving multiple-input multiple-output (MIMO) wireless communications, and in particular to dynamically determining when to switch MIMO transmission modes on a communication link between two devices that are capable of supporting multiple MIMO transmission modes. A base station receives from a client device one or more signals containing information representing a first signal-to-noise ratio (SNR) measurement and a second SNR measurement made by the client device. The first SNR measurement is associated with a first MIMO transmission mode and the second SNR measurement is associated with a second MIMO transmission mode. The base station computes a MIMO channel quality indicator from the first SNR measurement and the second SNR measurement, and evaluates the MIMO channel quality indicator to determine whether to switch MIMO transmission modes for transmissions to the client device.
    • 本文提供了用于改进多输入多输出(MIMO)无线通信的技术,特别是动态地确定何时在能够支持多个MIMO传输模式的两个设备之间的通信链路上切换MIMO传输模式。 基站从客户端设备接收包含表示第一信噪比(SNR)测量的信息的一个或多个信号和由客户端设备进行的第二SNR测量。 第一SNR测量与第一MIMO传输模式相关联,并且第二SNR测量与第二MIMO传输模式相关联。 基站从第一SNR测量和第二SNR测量计算MIMO信道质量指示符,并且评估MIMO信道质量指示符,以确定是否将用于传输的MIMO传输模式切换到客户端设备。
    • 9. 发明授权
    • Beamforming multiple-input multiple-output wireless techniques using spatial decomposition for frequency division duplex systems
    • 使用分频双工系统的空间分解对多输入多输出无线技术进行波束成形
    • US07876715B1
    • 2011-01-25
    • US12204867
    • 2008-09-05
    • Hang JinYanxin NaLi GuoJohn Grabner
    • Hang JinYanxin NaLi GuoJohn Grabner
    • H04B7/005
    • H04B7/043H04B7/0452
    • Techniques are provided herein to combine the advantages of beamforming with the advantages of multiple-input multiple output (MIMO) technology in a frequency division duplex (FDD) communication system, even when the uplink and downlink frequency separation exceeds the coherent bandwidth of the over-the-air-channels. At a first wireless communication device having M plurality of antennas, a wireless transmission is received that is sent from a second wireless communication device having P plurality of antennas. The first device computes spatial components associated with the transmission received at the M plurality of antennas. The first device selects the N strongest spatial components among the computed spatial components. The first device computes N beamforming weight vectors based on the N strongest spatial components. The first device then computes N MIMO beamforming weight vectors based on the N beamforming weight vectors. The N MIMO beamforming weight vectors are applied to N signal streams to be transmitted via the plurality of antennas of the first device to the plurality of antennas of the second device.
    • 本文提供了技术,即使当上行链路和下行链路频率间隔超过超分辨率的相干带宽时,波束成形的优点与频分双工(FDD)通信系统中的多输入多输出(MIMO)技术的优点相结合, 空中通道。 在具有M个多个天线的第一无线通信装置中,接收从具有多个天线的第二无线通信装置发送的无线传输。 第一设备计算与在M个多个天线处接收的传输相关联的空间分量。 第一个装置在计算的空间分量中选择N个最强的空间分量。 第一个设备基于N个最强的空间分量来计算N个波束成形权重向量。 然后,第一设备基于N个波束形成权重向量来计算N个MIMO波束成形加权向量。 N个MIMO波束成形加权矢量被施加到要经由第一设备的多个天线发送到第二设备的多个天线的N个信号流。