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    • 1. 发明授权
    • Dynamic socket waveform
    • 动态套接字波形
    • US07733839B1
    • 2010-06-08
    • US11338233
    • 2006-01-24
    • Robert J. FrankKarl F. HoechGunther B. FrankCarlos J. Chavez
    • Robert J. FrankKarl F. HoechGunther B. FrankCarlos J. Chavez
    • H04J1/00
    • H04L5/0005H04L5/0037H04L5/008H04W84/18
    • A system capable of operation with dynamic sockets includes a plurality of communications devices. Each of the plurality of communications devices includes high band channel radio resources capable of communications at 900-2800 MHz and socket radio resources capable of communications at 30-1000 MHz. The high band channel radio resources and the socket radio resources are significantly separated in frequency so that the high band channel radio resources and the socket radio resources are suitable for concurrent operation with no interference and minimal isolation, co-site problems to solve in each of the plurality of communications devices. The plurality of communications devices are connected to a unifying mesh network by the high band channel radio resources. The unifying mesh network is suitable for allowing the plurality of communications devices to communicate with one another. When data needs to be transferred among a group of communications devices, a dynamic socket connection is negotiated on the unifying mesh network and is then formed with the socket radio resources. The dynamic socket formation is suitable for allowing the unifying mesh network to offload continuous receiver-directed or multicast traffic from the unifying mesh network channel and to free up public ad hoc communications bandwidth of the unifying mesh network.
    • 能够与动态插座一起操作的系统包括多个通信设备。 多个通信设备中的每一个包括能够在900-2800MHz通信的高频带信道无线电资源和能够以30-1000MHz通信的插座无线电资源。 高频信道无线电资源和套接字无线电资源在频率上显着分开,使得高频带信道无线电资源和套接字无线电资源适合并行操作,无干扰和最小隔离,每个节点中要解决的协同问题 多个通信设备。 多个通信设备通过高频带信道无线电资源连接到统一网状网络。 统一网状网络适于允许多个通信设备彼此通信。 当需要在一组通信设备之间传送数据时,在统一网状网络上协商动态套接字连接,然后形成套接字无线电资源。 动态套接字形成适合于允许统一网状网络从统一网状网络信道卸载连续的接收机导向或组播业务,并释放统一网状网络的公共自组织通信带宽。
    • 2. 发明授权
    • Signal acquisition with efficient doppler search
    • 信号采集与高效多普勒搜索
    • US07636383B1
    • 2009-12-22
    • US11416619
    • 2006-05-03
    • Carlos J. ChavezGunther B. FrankRobert J. Frank
    • Carlos J. ChavezGunther B. FrankRobert J. Frank
    • H04B1/00
    • H04B1/7075
    • A receiver for computationally efficient signal acquisition of spread-spectrum chips affected by Doppler shift in an advanced tactical data link. Received signals with a very low signal-to-noise ratio are parsed in a multi-stage signal acquisition circuit architecture, and compared to a known sequence to determine correlation over a subset of the known sequence. Chip-rate-coherent correlation is performed over an interval of time for which the effect of Doppler shift on the chip rate are negligible. A non-coherent block then integrates intermediate metrics to obtain final metrics for the entire known sequence. The parsing of the correlation into subsets and stages allows for a more computationally efficient solution to the Doppler shift chip rate error problem by reducing the number of intermediate metrics that must be computed at high speed.
    • 用于在高级战术数据链路中受多普勒频移影响的扩频码片的计算有效信号采集的接收机。 在多级信号采集电路架构中解析具有非常低信噪比的接收信号,并与已知序列进行比较,以确定已知序列的子集上的相关性。 芯片速率相干相关是在多普勒频移对码片速率的影响可忽略的时间间隔上执行的。 然后,非相干块集成中间度量以获得整个已知序列的最终度量。 将相关性分解为子集和阶段允许通过减少必须以高速计算的中间度量的数量来更多地计算有效地解决多普勒频移码片率误差问题。
    • 3. 发明授权
    • Architecture for signal acquisition with cyclic range search
    • 具有循环范围搜索的信号采集架构
    • US07606290B1
    • 2009-10-20
    • US11416621
    • 2006-05-03
    • Carlos J. ChavezGunther B. FrankRobert J. Frank
    • Carlos J. ChavezGunther B. FrankRobert J. Frank
    • H04B1/00
    • H04B1/7075
    • An architecture for a spread-spectrum transmitter-receiver system in an advanced tactical data link that allows the receiver to readily acquire and synchronize to a desired LPD signal. Signal acquisition is performed with a cyclic range search that uses multiple redundant known sequences mapped to a known message sequence in a highly repeated manner. By employing the invariance of the speed of light, and synchronicity between transmitter and receiver, the architecture can significantly reduce the computational complexity of the receiver. Additionally, the architecture enables ad hoc channel access, controlled latency, distance estimation, and distance-directed transmissions.
    • 用于高级战术数据链路中的扩频发射机 - 接收机系统的架构,其允许接收机容易地获取并同步到期望的LPD信号。 以循环范围搜索进行信号采集,循环范围搜索使用以高度重复的方式映射到已知消息序列的多个冗余已知序列。 通过采用光速不变性和发射机与接收机之间的同步性,该架构可以显着降低接收机的计算复杂度。 此外,该体系结构可实现自组织频道访问,受控延迟,距离估计和距离定向传输。
    • 5. 发明授权
    • Quadrature LINC transmission method and apparatus
    • 正交LINC传输方法和装置
    • US07570711B1
    • 2009-08-04
    • US10414931
    • 2003-04-16
    • Carlos J. ChavezGunther B. FrankDennis L. Hoffman
    • Carlos J. ChavezGunther B. FrankDennis L. Hoffman
    • H04L27/36
    • H04L27/362H03F1/0294H03F2200/336
    • A quadrature LINC transmission system processes a baseband input signal for transmission as a linearly amplified RF signal. An in-phase LINC element processes an in-phase baseband signal into an in-phase RF signal. A quadrature LINC element processes a quadrature baseband signal into a quadrature RF signal. An output combiner combines the in-phase RF signal with the quadrature RF signal to provide the linearly amplified RF signal. The in-phase LINC element has a constant envelope decomposition block for decomposing the in-phase baseband signal into in-phase baseband constant envelope components. Two up-converters convert the in-phase baseband constant envelope components to in-phase RF constant envelope components. Two non-linear amplifiers amplify the in-phase RF constant envelope components. A combiner combines the amplified in-phase RF constant envelope components to yield the in-phase RF signal. The quadrature LINC element is similar to the in-phase LINC element and provides the quadrature RF signal.
    • 正交LINC传输系统处理用于传输的基带输入信号作为线性放大的RF信号。 同相LINC元件将同相基带信号处理成同相RF信号。 正交LINC元件将正交基带信号处理成正交RF信号。 输出组合器将同相RF信号与正交RF信号组合以提供线性放大的RF信号。 同相LINC元件具有用于将同相基带信号分解为同相基带恒定包络分量的恒定包络分解块。 两个上变频器将同相基带恒包络分量转换为同相RF恒包络分量。 两个非线性放大器放大同相RF恒定包络分量。 组合器组合放大的同相RF恒定包络分量以产生同相RF信号。 正交LINC元件类似于同相LINC元件,并提供正交RF信号。