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    • 1. 发明授权
    • Simultaneous feedback signaling for dynamic bandwidth selection
    • 用于动态带宽选择的同步反馈信号
    • US09258070B2
    • 2016-02-09
    • US13635341
    • 2011-10-20
    • James June-Ming WangVishakan PonnampalamJianhan LiuChao-Chun WangHuanchun Ye
    • James June-Ming WangVishakan PonnampalamJianhan LiuChao-Chun WangHuanchun Ye
    • H04W4/00H04B17/309H04B17/24
    • H04B17/309H04B17/24
    • A method of simultaneously providing channel quality feedback information in all valid sub-channels is provided to facilitate and improve the performance of dynamic transmission bandwidth adjustment and fast link adaptation. A receiving device receives a sounding signal over a wide channel in a wireless system. The sounding signal is transmitted from a transmitting device over multiple sub-channels of the wide channel. The receiving device estimates channel quality information based on the sounding signal for each sub-channel. The channel quality information includes estimated average SNR and recommended MCS and other channel quality metrics. The receiving device transmits a feedback message to the transmitting device. The feedback message contains the estimated channel quality information for all valid sub-channels within the transmission bandwidth. The transmitting device performs dynamic transmission bandwidth selection and fast link adaptation based on the channel quality information for all valid sub-channels.
    • 提供了一种在所有有效子信道中同时提供信道质量反馈信息的方法,以促进和改进动态传输带宽调整和快速链路自适应的性能。 接收设备在无线系统中通过宽频道接收探测信号。 探测信号通过宽信道的多个子信道从发送设备发送。 接收装置基于每个子信道的探测信号来估计信道质量信息。 信道质量信息包括估计的平均SNR和推荐的MCS等信道质量度量。 接收装置向发送装置发送反馈消息。 反馈消息包含传输带宽内所有有效子信道的估计信道质量信息。 发送设备根据所有有效子信道的信道质量信息,执行动态传输带宽选择和快速链路自适应。
    • 2. 发明授权
    • Methods for monitoring channel sounding quality in WLAN devices
    • WLAN设备监听通道音质的方法
    • US08804559B2
    • 2014-08-12
    • US13373305
    • 2011-11-10
    • Jianhan LiuVishakan PonnampalamJames June-Ming Wang
    • Jianhan LiuVishakan PonnampalamJames June-Ming Wang
    • G06F11/00H04J1/16H04L1/00H04W24/00H04L12/26
    • H04W24/00H04L1/0026H04L1/06H04L25/0208H04L43/50
    • A method of monitoring channel-sounding quality for VHT WiFi devices is provided. A mobile station (the receiver) receives a sounding signal transmitted from an access point (the transmitter) over one or multiple sub-channels of a wide channel in a wireless network. The receiver performs channel estimation and determines an estimated channel response matrix. The receiver then calculates sounding quality for each valid sub-channel by computing an estimation error of the received sounding signal based on the estimated channel matrix. The receiver transmits a feedback message to the transmitter. The feedback message contains sounding quality information derived from the calculated channel sounding quality. If the channel sounding qualities for all valid sub-channels are poor, then a null VHT channel feedback frame is sent back to the transmitter.
    • 提供了一种监测VHT WiFi设备的通道音质的方法。 移动站(接收机)通过无线网络中的宽信道的一个或多个子信道接收从接入点(发射机)发送的探测信号。 接收机执行信道估计并确定估计的信道响应矩阵。 然后,接收机通过基于估计的信道矩阵计算接收到的探测信号的估计误差来计算每个有效子信道的探测质量。 接收机向发射机发送反馈消息。 反馈消息包含从计算的声道探测质量得到的探测质量信息。 如果所有有效子信道的信道探测质量差,则将零VHT信道反馈帧发送回发射机。
    • 6. 发明申请
    • Methods for monitoring channel sounding quality in WLAN devices
    • WLAN设备监听通道音质的方法
    • US20120120839A1
    • 2012-05-17
    • US13373305
    • 2011-11-10
    • Jianhan LiuVishakan PonnampalamJames June-Ming Wang
    • Jianhan LiuVishakan PonnampalamJames June-Ming Wang
    • H04W24/00
    • H04W24/00H04L1/0026H04L1/06H04L25/0208H04L43/50
    • A method of monitoring channel-sounding quality for VHT WiFi devices is provided. A mobile station (the receiver) receives a sounding signal transmitted from an access point (the transmitter) over one or multiple sub-channels of a wide channel in a wireless network. The receiver performs channel estimation and determines an estimated channel response matrix. The receiver then calculates sounding quality for each valid sub-channel by computing an estimation error of the received sounding signal based on the estimated channel matrix. The receiver transmits a feedback message to the transmitter. The feedback message contains sounding quality information derived from the calculated channel sounding quality. If the channel sounding qualities for all valid sub-channels are poor, then a null VHT channel feedback frame is sent back to the transmitter.
    • 提供了一种监测VHT WiFi设备的通道音质的方法。 移动站(接收机)通过无线网络中的宽信道的一个或多个子信道接收从接入点(发射机)发送的探测信号。 接收机执行信道估计并确定估计的信道响应矩阵。 然后,接收机通过基于估计的信道矩阵计算接收到的探测信号的估计误差来计算每个有效子信道的探测质量。 接收机向发射机发送反馈消息。 反馈消息包含从计算的声道探测质量得到的探测质量信息。 如果所有有效子信道的信道探测质量差,则将零VHT信道反馈帧发送回发射机。
    • 7. 发明授权
    • RFID system with an adaptive array antenna
    • 具有自适应阵列天线的RFID系统
    • US07212116B2
    • 2007-05-01
    • US11009098
    • 2004-12-10
    • James June-Ming WangJack WintersRobert Warner
    • James June-Ming WangJack WintersRobert Warner
    • G08B13/14
    • H01Q1/2208G06K7/10356H01Q3/2605H04B7/0848H04B7/0857
    • The present invention relates to use of a smart antenna for a RF reader on a Radio Frequency Identification (RFID) system to significantly increase the operating range of the RFID system. The smart antenna can be an adaptive antenna array. The smart antenna comprises a plurality of antenna elements and, by combining the signals from multiple antenna elements, significantly increases the received signal-to-noise ratio. In a noise limited environment, combining the signals to maximize the received signal-to-noise ratio can be based on the maximal ratio combining (MRC) principle. To achieve the best signal quality, the received signal from each antenna can be phase-shifted such that the resultant signals from all antennas are in phase. In addition, the signal from each antenna can be scaled in amplitude based on the square root of its received signal-to-noise ratio.
    • 本发明涉及在射频识别(RFID)系统上用于RF读取器的智能天线,以显着增加RFID系统的操作范围。 智能天线可以是自适应天线阵列。 智能天线包括多个天线元件,并且通过组合来自多个天线元件的信号,显着增加了接收到的信噪比。 在噪声限制环境中,组合信号以使接收的信噪比最大化可以基于最大比组合(MRC)原理。 为了实现最佳的信号质量,来自每个天线的接收信号可以进行相移,使得来自所有天线的合成信号同相。 另外,来自每个天线的信号可以根据其接收的信噪比的平方根进行幅度缩放。
    • 8. 发明授权
    • Method and apparatus for GPS signal receiving that employs a frequency-division-multiplexed phased array communication mechanism
    • 采用频分复用相控阵通信机制的GPS信号接收方法和装置
    • US06784831B1
    • 2004-08-31
    • US10429492
    • 2003-05-05
    • James June-Ming WangChau-Chin YangWen Yen Lin
    • James June-Ming WangChau-Chin YangWen Yen Lin
    • G01S502
    • G01S19/21G01S19/22G01S19/36H01Q21/065
    • An improved GPS signal receiver (and corresponding method of operation) includes a plurality of antenna elements each receiving a plurality of GPS signals (e.g., GPS LI signals or GPS L2 signals). A plurality of mixers (which correspond to the array of antenna elements) and a combining node convert the GPS signals received at the antenna elements in a frequency-division-multiplexed (FDM) manner over FDM frequency bands logically assigned to the antenna elements to produce a composite signal representing such GPS signals. An analog-to-digital converter converts an analog signal derived from the composite signal (which may be an intermediate frequency signal or a baseband signal) into a digital word stream. Demultiplexing logic extracts GPS signal components in the digital word stream. The GPS signal components correspond to the FDM frequency bands logically assigned to the antenna elements. Beam forming logic, operably coupled to the demultiplexing logic, applies variable phase delay and variable gain to each GPS component in accordance with a set of weight values supplied thereto. Preferably, the beam forming logic is controlled to perform adaptive beam steering/nulling operations that provide for interference cancellation, multipath rejection and improved signal reception.
    • 改进的GPS信号接收机(及相应的操作方法)包括多个天线元件,每个天线元件接收多个GPS信号(例如,GPS L1信号或GPS L2信号)。 多个混合器(其对应于天线元件阵列)和组合节点通过在逻辑上分配给天线元件的FDM频带上以频分复用(FDM)方式在天线元件处接收的GPS信号转换以产生 表示这种GPS信号的复合信号。 模拟 - 数字转换器将从复合信号(其可以是中频信号或基带信号)导出的模拟信号转换为数字字流。 解复用逻辑提取数字字流中的GPS信号分量。 GPS信号分量对应于逻辑地分配给天线元件的FDM频带。 可操作地耦合到解复用逻辑的光束形成逻辑根据提供给其的一组权重值向每个GPS分量施加可变相位延迟和可变增益。 优选地,波束形成逻辑被控制以执行提供干扰消除,多路径抑制和改进的信号接收的自适应波束导向/归零操作。
    • 10. 发明申请
    • Methods for Determining a Loading of a Wireless Communications System and Communication Apparatuses Utilizing the Same
    • 用于确定无线通信系统的负载的方法和使用该无线通信系统的通信设备
    • US20130201861A1
    • 2013-08-08
    • US13877970
    • 2011-12-28
    • Chao-Chun WangChih-Shi YeeJames June-Ming Wang
    • Chao-Chun WangChih-Shi YeeJames June-Ming Wang
    • H04W24/08
    • H04W24/08H04W28/08H04W28/20
    • A method for determining a loading of a wideband communications channel in a wireless communications system includes: setting up a loading table for the wideband communications channel comprising a plurality of narrow band communications channels; obtaining channel characteristics of the plurality of narrow band communications channels; deciding on a number of data streams and a practical bandwidth of the wideband communications channel for a data transmission transaction and selecting one or more peer communications devices for receiving the data streams; completing the data transmission transaction with the one or more peer communications devices; updating the loading table with the information about the practical bandwidth of the wideband communications channel, the number of data streams and duration of the data transmission transaction; and computing the loading by using the information in the loading table in accordance with a pre-determined formula.
    • 一种用于确定无线通信系统中的宽带通信信道的负载的方法包括:为包括多个窄带通信信道的宽带通信信道建立加载表; 获得所述多个窄带通信信道的信道特性; 确定用于数据传输事务的多个数据流和宽带通信信道的实际带宽,并选择用于接收数据流的一个或多个对等通信设备; 完成与一个或多个对等通信设备的数据传输事务; 使用关于宽带通信信道的实际带宽的信息,数据流的数量和数据传输事务的持续时间来更新加载表; 以及根据预定公式通过使用装载表中的信息来计算加载。