Band pass filter design against interrupted-sampling repeater jamming based on time-frequency analysis
The interrupted-sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise targets. This study focuses on the research of ISRJ suppression for linear frequency modulation radars. A new band pass filter design meth...
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| Published in | IET radar, sonar & navigation Vol. 13; no. 10; pp. 1646 - 1654 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
The Institution of Engineering and Technology
01.10.2019
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| Subjects | |
| Online Access | Get full text |
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| Abstract | The interrupted-sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise targets. This study focuses on the research of ISRJ suppression for linear frequency modulation radars. A new band pass filter design method based on time frequency (TF) analysis is proposed. A function named ‘max-TF’ is constructed from the TF energy distribution of the de-chirped signal, reflecting the changes of the maximum signal component amplitude with respect to time. Based on the ‘max-TF’ function, jamming-free signal segments are automatically and accurately extracted to generate the filter, which is smoothed subsequently. After filtering, jamming signal peaks in pulse compression results are suppressed while real targets are retained simultaneously. Comparing with the state-of-the-art filtering method, the proposed method has improved jamming suppression ability and extended the feasible scope of signal-to-noise ratio and jamming-to-signal ratio conditions. Simulations have validated the improvements and demonstrated how the parameters affect performance. The average signal to jamming improvement and average radar detection rate of the proposed method is about 7.4 dB and 23% higher than those of the state-of-the-art filtering method, respectively. The direction of further works is inferred. |
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| AbstractList | The interrupted-sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise targets. This study focuses on the research of ISRJ suppression for linear frequency modulation radars. A new band pass filter design method based on time frequency (TF) analysis is proposed. A function named ‘max-TF’ is constructed from the TF energy distribution of the de-chirped signal, reflecting the changes of the maximum signal component amplitude with respect to time. Based on the ‘max-TF’ function, jamming-free signal segments are automatically and accurately extracted to generate the filter, which is smoothed subsequently. After filtering, jamming signal peaks in pulse compression results are suppressed while real targets are retained simultaneously. Comparing with the state-of-the-art filtering method, the proposed method has improved jamming suppression ability and extended the feasible scope of signal-to-noise ratio and jamming-to-signal ratio conditions. Simulations have validated the improvements and demonstrated how the parameters affect performance. The average signal to jamming improvement and average radar detection rate of the proposed method is about 7.4 dB and 23% higher than those of the state-of-the-art filtering method, respectively. The direction of further works is inferred. The interrupted‐sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise targets. This study focuses on the research of ISRJ suppression for linear frequency modulation radars. A new band pass filter design method based on time frequency (TF) analysis is proposed. A function named ‘max‐TF’ is constructed from the TF energy distribution of the de‐chirped signal, reflecting the changes of the maximum signal component amplitude with respect to time. Based on the ‘max‐TF’ function, jamming‐free signal segments are automatically and accurately extracted to generate the filter, which is smoothed subsequently. After filtering, jamming signal peaks in pulse compression results are suppressed while real targets are retained simultaneously. Comparing with the state‐of‐the‐art filtering method, the proposed method has improved jamming suppression ability and extended the feasible scope of signal‐to‐noise ratio and jamming‐to‐signal ratio conditions. Simulations have validated the improvements and demonstrated how the parameters affect performance. The average signal to jamming improvement and average radar detection rate of the proposed method is about 7.4 dB and 23% higher than those of the state‐of‐the‐art filtering method, respectively. The direction of further works is inferred. |
| Author | Zou, Jiangwei Xu, Shiyou Chen, Zengping Chen, Jian Wu, Wenzhen |
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| Keywords | radar detection average signal max-TF function signal peaks FM radar band-pass filters band pass filter design method time-frequency analysis jamming improvement time frequency analysis maximum signal component amplitude jamming suppression ability jamming-free signal segments emitted signal state-of-the-art filtering method pulse compression interrupted-sampling repeater jamming ISRJ suppression de-chirped signal average radar detection rate signal-to-noise ratio jamming-to-signal ratio conditions linear frequency modulation radars TF energy distribution noise figure 7.4 dB |
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| Snippet | The interrupted-sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise... The interrupted‐sampling repeater jamming (ISRJ) is coherent with an emitted signal, and significantly limits radar's ability to detect, track and recognise... |
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| SubjectTerms | average radar detection rate average signal band pass filter design method band‐pass filters de‐chirped signal emitted signal FM radar interrupted‐sampling repeater jamming ISRJ suppression jamming jamming improvement jamming‐free signal segments jamming‐to‐signal ratio conditions linear frequency modulation radars maximum signal component amplitude max‐TF function noise figure 7.4 dB pulse compression radar detection Research Article signal peaks signal‐to‐noise ratio state‐of‐the‐art filtering method suppression ability TF energy distribution time frequency analysis |
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| Title | Band pass filter design against interrupted-sampling repeater jamming based on time-frequency analysis |
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