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    • 2. 发明授权
    • Unified STTC encoder for WAVE transceivers
    • 用于WAVE收发器的统一STTC编码器
    • US08139668B2
    • 2012-03-20
    • US12503465
    • 2009-07-15
    • Philip V. OrlikLu ZhangRaymond YimJinyun Zhang
    • Philip V. OrlikLu ZhangRaymond YimJinyun Zhang
    • H04L5/12H04B7/02H03C7/02
    • H04L1/065H04L1/0003H04L25/0212H04L25/0226
    • A transmitter encodes an input bitstream using space-time trellis coding (STTC). The encoder includes a serial to parallel convertor to produce a first and second output bitstreams. First and second three bit shift registers are connected to produce first and second output bitstreams. A multiplier applies a code generating weight to each bit of the shift registers to encode the bitstreams. A first switch is connected between a last bit of the first shift register and a first bit of the second shift register. A second switch is connected between the second output and the first bit of the second shift register. The first set of encoded bit streams and the second set of encoded bitstreams are combined and mapped to a frequency domain.
    • 发射机使用空时网格编码(STTC)对输入比特流进行编码。 编码器包括串行到并行转换器以产生第一和第二输出比特流。 连接第一和第二三位移位寄存器以产生第一和第二输出比特流。 乘法器将代码生成权重应用于移位寄存器的每个位以对比特流进行编码。 第一开关连接在第一移位寄存器的最后位和第二移位寄存器的第一位之间。 第二开关连接在第二输出端和第二移位寄存器的第一位之间。 第一组编码比特流和第二组编码比特流被组合并映射到频域。
    • 3. 发明授权
    • Beamforming in wireless vehicular networks
    • 无线车载网络中的波束成形
    • US08023915B2
    • 2011-09-20
    • US12413868
    • 2009-03-30
    • Philip V. OrlikRaymond YimRamesh AnnavajjalaJinyun Zhang
    • Philip V. OrlikRaymond YimRamesh AnnavajjalaJinyun Zhang
    • H04B1/06H04B7/00
    • H04B7/0617H04B7/086
    • Beams are used to communicate in a wireless network including mobile and stationary receivers. The network operates according to the IEEE 802.11p in wireless access to vehicular environments (WAVE). A direction from the mobile transceiver to the stationary receiver is predicted using geographic information available to the mobile transceiver. A set of signals are received in the mobile transceiver from the stationary transceiver, wherein the signals are received by an array of antennas, and wherein the signals are received using a set of beams, and wherein each beam is approximately directed at the stationary receiver. A signal-to-noise ratio (SNR) is measured for each beam, and the beam with an optimal SNR is selected as an optimal beam for communicating data between the mobile transceiver and the stationary transceiver.
    • 光束用于在包括移动和固定接收机的无线网络中进行通信。 该网络根据IEEE 802.11p在无线接入车辆环境(WAVE)中运行。 使用可用于移动收发机的地理信息来预测从移动收发机到固定接收机的方向。 在固定收发器中的移动收发器中接收一组信号,其中信号由天线阵列接收,并且其中使用一组波束接收信号,并且其中每个波束近似地指向固定接收机。 测量每个波束的信噪比(SNR),并且选择具有最佳SNR的波束作为用于在移动收发器和固定收发器之间传送数据的最佳波束。
    • 5. 发明授权
    • Cooperative base stations in wireless networks
    • 无线网络中的合作基站
    • US07826853B2
    • 2010-11-02
    • US11934131
    • 2007-11-02
    • Andreas F. MolischLun DongPhilip V. OrlikJinyun Zhang
    • Andreas F. MolischLun DongPhilip V. OrlikJinyun Zhang
    • H04W72/00
    • H04B7/0678H04B7/024H04B7/043H04B7/0443
    • The embodiments of the invention provide an adaptive method for base station cooperation in a wireless network. In a multi-user communications network that includes base stations, and in which each base station is associated with a cell, and in which each cell includes one or more mobile stations, each base station determines pre-coding matrices for full-cooperation, semi-cooperation and non-cooperation. Each base stations also determines a sum rate SRfull for full-cooperation, a sum rate SRsemi for semi-cooperation, and a sum rate SRnon for non-cooperation. Then, each base station selects the pre-coding for full-cooperation, the pre-coding matrices for semi cooperation, or the pre-coding matrices for non cooperation. Each base station transmits signals according to the selected pre-coding matrices.
    • 本发明的实施例提供了一种用于无线网络中的基站协作的自适应方法。 在包括基站并且其中每个基站与小区相关联并且每个小区包括一个或多个移动站的多用户通信网络中,每个基站确定用于全协作的预编码矩阵,半 合作不合作。 每个基站还确定全面合作的总和速率,半合作的总和SRsemi和不合作的总和速率SRnon。 然后,每个基站选择用于全协作的预编码,用于半合作的预编码矩阵,或者用于非合作的预编码矩阵。 每个基站根据选择的预编码矩阵发送信号。
    • 7. 发明申请
    • Cooperative Ultra-Reliable Wireless Communications
    • 合作超可靠无线通信
    • US20100254369A1
    • 2010-10-07
    • US12419874
    • 2009-04-07
    • Zhifeng TaoPhilip V. OrlikZafer SahinogluAndreas F. MolischJinyun Zhang
    • Zhifeng TaoPhilip V. OrlikZafer SahinogluAndreas F. MolischJinyun Zhang
    • H04J3/16H04L27/28
    • H04L1/1621H04L27/26H04L2001/0093H04L2001/0097
    • A network includes a master node (master) and a set of slave nodes (slaves). The network uses orthogonal frequency-division multiplexing (OFDM) and time division multiple access (TDMA) symbols on sub-carriers. During a first downlink transmission from the master to the set of slaves using downlinks and all of the sub-carriers, a broadcast polling packet including data packets for each slave and sub-carrier assignments for the slaves is broadcast. Each slave transmits simultaneously to the master using uplinks and the assigned sub-carriers, a first response packet after receiving the broadcast polling packet. The master then broadcasts using the downlinks and all of the sub-carriers, a group acknowledgement packet, wherein the broadcast polling packet, the response packet, and the group acknowledgement packet include one superframe in one communication cycle, and wherein the broadcasting on the downlinks and the transmitting on the uplinks are disjoint in time.
    • 网络包括主节点(主节点)和一组从节点(从节点)。 该网络在子载波上使用正交频分复用(OFDM)和时分多址(TDMA)符号。 在使用下行链路和所有子载波从主机到从机组的第一次下行链路传输期间,广播包括用于每个从机的数据分组的广播轮询分组和用于从机的子载波分配。 每个从设备使用上行链路和分配的子载波同时发送到主设备,第一响应分组在接收到广播轮询分组之后。 然后主机使用下行链路和所有子载波,一组确认分组广播,其中广播轮询分组,响应分组和组确认分组在一个通信周期中包括一个超帧,并且其中在下行链路上进行广播 并且在上行链路上的发送在时间上是不相交的。