X
Advance Search
  • Citation: Cheng, Y., Lin, J., Shen, X. H., Wan, X., Li, X. X., and Wang, W. J. (2018). Analysis of GNSS radio occultation data from satellite ZH-01. Earth Planet. Phys., 2(6), 499–504. http://doi.org/10.26464/epp2018048.
    Citation: Citation: Cheng, Y., Lin, J., Shen, X. H., Wan, X., Li, X. X., and Wang, W. J. (2018). Analysis of GNSS radio occultation data from satellite ZH-01. Earth Planet. Phys., 2(6), 499–504. http://doi.org/10.26464/epp2018048.
Open Access    

Analysis of GNSS radio occultation data from satellite ZH-01

  • The electromagnetic satellite Zhangheng 01 (ZH-01) was successfully launched on February 2, 2018. The GNSS Radio Occultation (GRO) receiver on board the satellite is able to observe the occultation events of GPS and BeiDou navigation satellites. We analyzed the data acquired during the in-orbit testing period. We concludes that the GRO ionosphere inversion results are reasonable, the trend is correct, the satellite can observe about 600 ionosphere occultation events each day. The global coverage of more than 30000 consecutive GRO events in more than two months were analyzed and compared with COSMIC observations: both the GRO and COSMIC occultation can realize global coverage: the NmF2 and HmF2 global distributions are similar and change obviously with latitude. We used three digisondes at different latitudes to analyze and compare the spatio-temporally consistent GRO data: the RMSE of GRO NmF2 relative to digisonde is better than 9.41%, the correlation coefficient is better than 0.8682: the relative RMSE of HmF2 is better than 7.80% and the correlation coefficient is better than 0.7066.

  • loading

Catalog

    Turn off MathJax
    Article Contents

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return