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    • 7. 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。
    • 8. 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。
    • 10. 发明申请
    • Fast Handover Protocols for Wimax Networks
    • Wimax网络的快速切换协议
    • US20100208690A1
    • 2010-08-19
    • US12370750
    • 2009-02-13
    • Jianlin GuoRaymond YimJinyun Zhang
    • Jianlin GuoRaymond YimJinyun Zhang
    • H04W36/00
    • H04W36/0055H04W36/0038
    • A method performs handover of a mobile station (MS from a current base station (BSC) connected to a target base station (BST) via a backbone in a Worldwide interoperability for Microwave Access (WiMAX) mobile communication network. The MS, before handover, transmits a Connection Identifier Request (CID-REQ) to the BST via the BSC, and receiving a Connection Identifier Response (CID-RSP) from the BST via the BSC. The MS, before handover, transmits a Subscriber Station (SS) Basic Capability Request (SBC-REQ), and receives a SS Basic Capability Response (SBC-RSP) from the BST via the BSC. Then, the MS transmits a Ranging Request (RNG-REQ) to the BST, and receives a Ranging Response (RNG-RSP) from the BST. During the handover, the MS transmits a Registration Request (REG-REQ) to the BST, and receives a Registration Response from the BST to establish the connection between the MS and the BST.
    • 一种方法是在全球微波接入(WiMAX)移动通信网络的互操作性中,经由骨干网执行移动台(来自连接到目标基站(BST)的当前基站(BSC))的切换, 通过BSC向BST发送连接标识符请求(CID-REQ),并通过BSC从BST接收连接标识符响应(CID-RSP),MS在切换之前发送用户站(SS)基本能力 请求(SBC-REQ),并通过BSC从BST接收SS基本能力响应(SBC-RSP),然后MS向BST发送测距请求(RNG-REQ),并接收测距响应(RNG -RSP),在切换期间,MS向BST发送注册请求(REG-REQ),并从BST接收注册响应以建立MS与BST之间的连接。