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引用次数: 4
摘要
提出了一种雷达传输和处理方案,使目标主瓣尽可能窄,副瓣电平尽可能低,从而产生距离像估计。具体来说,Golay波形是通过时分离波形传输和再迭代超分辨率(Re-Iterative Super Resolution, RISR)算法实现的[9]。多普勒容限是通过使用Golay四元以及多普勒bin特定的快时间多普勒补偿来实现的。Golay四边形的四种波形以固定的脉冲重复间隔以四次连续爆发传输。采用RISR算法将接收到的信号分离成离散的多普勒信道。然后对分离的信号分量进行适当补偿,以便利用Golay互补性。通过简单的仿真实例说明了分时Golay传输和处理方案。
A radar transmission and processing scheme is developed which yields range profile estimates with target mainlobes which are as narrow as possible and sidelobe levels which are low. Specifically, Golay waveforms are implemented via time separated waveform transmission and the Re-Iterative Super Resolution (RISR) algorithm [9]. Doppler tolerance is achieved by using Golay quads in addition to Doppler bin specific fast-time Doppler compensation. The four waveforms of the Golay quad are transmitted in four sequential bursts at a fixed pulse repetition interval. The RISR algorithm is used to separate the received signal into discrete Doppler bins. The separated signal components are then compensated appropriately so that the Golay complementarity property can be exploited. The time separated Golay transmission and processing scheme is illustrated with simple simulation examples.
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