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| Citation: | ZHOU Kai, HE Feng, and SU Yi. Fast algorithm for joint waveform and filter design against interrupted sampling repeater jamming[J]. Journal of Radars, 2022, 11(2): 264–277. doi: 10.12000/JR22015
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Fast Algorithm for Joint Waveform and Filter Design against Interrupted Sampling Repeater Jamming
doi: 10.12000/JR22015
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Abstract
To suppress interrupted sampling jamming, a joint waveform and filter design method was proposed in this study. A fast algorithm was also suggested to design sequences with large code lengths. The joint design problem was formulated on the basis of the penalty function and Pareto optimization method. By deriving the theoretical solution of the trace of matrices in each iteration, the computation order of the proposed algorithm was decreased significantly compared to that of the conventional algorithm. Moreover, an accelerated scheme based on the squared iterative method, which further improves the running speed of the algorithm, was proposed. Simulation results demonstrate that the proposed algorithm runs faster than traditional algorithms. Moreover, the designed waveform and filter can be applied to suppress interrupted sampling repeater jamming when the false targets are inseparable from the true targets in time-frequency domains. -
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References
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- Figure 1. Curves of mismatch output performance versus Pareto weights
- Figure 2. The amplitude of the real part of waveform
- Figure 3. Mismatch output of the waveform and jamming signal (N=512)
- Figure 4. Integrated sidelobe levels and integrated levels versus loss of processing gain
- Figure 5. Comparison of running time
- Figure 6. Running time versus different code length
- Figure 7. Mismatch output of waveform and jamming signal (N=800)
- Figure 8. Evaluation of interrupted sampling repeater jamming suppression
- Figure 9. Jamming suppression performance versus location of jammer
- Figure 10. Jamming peak versus the relative error of pulse repetition period and duty ratio