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    • 2. 发明授权
    • System and method for fast data rate discovery from PN codes
    • 用于从PN码快速发现数据速率的系统和方法
    • US07167504B1
    • 2007-01-23
    • US10352295
    • 2003-01-27
    • Vaughn L. MowerMerle L. KellerKent R. BrueningSteve J. McEntire
    • Vaughn L. MowerMerle L. KellerKent R. BrueningSteve J. McEntire
    • H04B1/00
    • H04J13/10H04B1/707H04B1/70735H04B2201/70705H04J13/0022
    • This invention generates pseudo-noise (PN) codes that map a transmitted data rate into the PN code structure. This invention further then acquires the PN code to automatically discover the transmitted data rate. This invention is operable with communication systems that utilize GPS time synchronization of the transmitted and received PN codes, as well as with communication systems where GPS time synchronization is not available. A method and a system are disclosed to transmit a modulated signal from a transmitter to a receiver, where the modulated signal has a data rate. The method includes selecting, to represent the data rate, at least one PN component code from a set of PN component codes. The PN component code is a constituent code of a composite PN code comprised of a plurality of PN component codes. The selected PN component code is one that phase aligns with a PN composite encoded signal. The method further includes modulating the signal to be transmitted using the PN composite code that includes the selected PN component code, receiving the modulated signal, demodulating the received signal using a demodulation process and discovering the data rate during the demodulation process. The demodulation process includes generating instances of a plurality of PN component codes, and correlating the received modulated signal either sequentially or in parallel with the instances of the PN component codes.
    • 本发明产生将发送的数据速率映射到PN码结构的伪噪声(PN)码。 本发明还获得PN码以自动发现所发送的数据速率。 本发明可利用利用发送和接收的PN码的GPS时间同步的通信系统以及GPS时间同步不可用的通信系统。 公开了一种将调制信号从发射机发射到接收机的方法和系统,其中调制信号具有数据速率。 该方法包括从一组PN分量代码中选择表示数据速率的至少一个PN分量代码。 PN分量代码是由多个PN分量代码组成的复合PN代码的组成代码。 选择的PN分量代码是与PN复合编码信号相位相位的代码。 该方法还包括使用包括所选择的PN分量码的PN复合码来调制要发送的信号,接收调制信号,使用解调处理解调接收的信号,并在解调过程中发现数据速率。 解调过程包括产生多个PN分量代码的实例,并且将接收到的调制信号顺序地或与PN分量代码的实例并行地相关联。
    • 9. 发明授权
    • High rate, time division multiplexed, multi-MPSK MODEM with imbedded high signal-to-noise ratio tracking channel
    • 高速率,时分复用,具有嵌入式高信噪比跟踪通道的多MPSK调制解调器
    • US07161920B2
    • 2007-01-09
    • US10292141
    • 2002-11-12
    • Harold L. SimonsenKent R. BrueningRandal R. Sylvester
    • Harold L. SimonsenKent R. BrueningRandal R. Sylvester
    • H04Q7/28H04B1/69
    • H04B1/707H04B2201/70701H04L27/18
    • A novel MODEM and method of operating a MODEM usable in spread spectrum communication utilizing multiple waveforms in orthogonal spread signals imbeds a tracking signal in one of the spread signals for efficient tracking by a receiver so that both spread signals can have wideband characteristics. Therefore, one spread signal contains a tracking channel and a wideband channel, allowing for higher order modulation in the wideband channel for transmitting information, while still providing good tracking features. The second spread signal is an orthogonal wideband channel serving as the main high data rate conduit. In the preferred embodiment, the first portion of the waveform (in the first spread signal) is modulated using Bi-Bi-Phase Shift Keying (Bi-BPSK), while the second portion of the waveform (in the second spread signal) is modulated using Multiple Phase Shift Keying (MPSK). The two waveform portions are Time Division Multiplexed (TDM) at the chipping rate. A higher overall data bandwidth can be achieved for the Bi-BPSK modulation technique using the same channel bandwidth.
    • 使用在正交扩展信号中利用多个波形的可用于扩展频谱通信的MODEM的新型MODEM和方法在一个扩展信号中嵌入跟踪信号,以便接收机有效跟踪,使得两个扩展信号都可以具有宽带特性。 因此,一个扩展信号包含跟踪信道和宽带信道,允许宽带信道中的更高阶调制用于传输信息,同时仍然提供良好的跟踪特征。 第二扩展信号是用作主高数据速率管道的正交宽带信道。 在优选实施例中,波形的第一部分(在第一扩展信号中)使用Bi-Bi相移键控(Bi-BPSK)进行调制,而波形的第二部分(在第二扩展信号中)被调制 使用多相移键控(MPSK)。 两个波形部分是切分率的时分复用(TDM)。 对于使用相同信道带宽的Bi-BPSK调制技术,可以实现更高的总体数据带宽。