作者: Fan Gao Tianhe Xu , Xinyue Meng, NaziWang, Yunqiao He and Baojiao Ning

来源出版物:Remote Sensing卷:13期:5文献号:DOI: https://doi.org/10.3390/rs13071378 出版年:March 2021

摘要:High temporal and spatial resolutions are the key advantages of the global navigation satellites system-reflectometry (GNSS-R) technique, while low precision and instabilities constrain its development. Compared with conventional Ku/C band nadir-looking radar altimetry, the precision of GNSS-R code-level altimetry is restricted by the smaller bandwidth and the lower transmitted power of the signals. Fortunately, modernized GNSS broadcast new open-available ranging codes with wider bandwidth. The Chinese BDS-3 system was built on 31 July 2020; its inclined geostationary orbit and medium circular orbit satellites provide B1C and B2a public navigation service signals in the two frequency bands of B1 and B2. In order to investigate their performance on GNSS-R code-level altimetry, a coastal experiment was conducted on 5 November 2020 at a trestle of Weihai in the Shandong province of China. The raw intermediate frequency data with a 62 MHz sampling rate were collected and post-processed to solve the sea surface height every second continuously for over eight hours. The precisions were evaluated using the measurements from a 26 GHz radar altimeter mounted on the same trestle near our GNSS-R setup. The results show that a centimeter-level accuracy of GNSS-R altimetry—based on B1C code after the application of the moving average—can be achieved, while for B2a code, the accuracy is about 10 to 20 cm

Keywords:ocean altimetry;global Navigation satellite systems reflectometer (GNSS-R);BDS;B1C;B2a

Citations:Gao, Fan, Tianhe Xu, Xinyue Meng, Nazi Wang, Yunqiao He, and Baojiao Ning. "A Coastal Experiment for Gnss-R Code-Level Altimetry Using Bds-3 New Civil Signals." Remote Sensing 13, no. 7 (2021): 1378.