Correction of Ionospheric Distortion on HF Hybrid Sky‐Surface Wave Radar Calibrated by Direct Wave

Abstract The performance of the high‐frequency hybrid sky‐surface wave radar is often degraded due to the distortion of radar echoes induced by time‐varying ionosphere. Here a modified S ‐transform method based on the direct wave for ionosphere decontamination of high‐frequency hybrid sky‐surface wave radar is presented. First, we extract the time‐varying‐ionosphere‐distorted phase of the echoes from the direct wave of high‐frequency hybrid sky‐surface wave radar by using the modified S ‐transform. Then this phase function is used to decontaminate the ionosphere distortion of radar echo at each range bins. Simulations and experimental data are conducted to validate the performance of the proposed method on decontaminating the distortion. The experimental data are acquired by Wuhan Universitys ocean state measuring and analyzing radar. A mass of radar data is processed and analyzed, demonstrating that the decontamination effect is statistically significant. The method is not only effective to remove the Doppler shift of direct wave and Bragg peaks caused by ionosphere but also able to narrow the broadened direct wave and Bragg peaks. Meanwhile, the SNR is improved in most range bins; the background noise is reduced detectably, sometimes significantly; and some isolated radar echoes near direct wave or Bragg peaks are recovered or enhanced. These results indicate that the proposed decontamination algorithm works well.