Low-Cost BDS Reflectometry for Real-Time Water Surface Retrieval

The official launch of the Chinese BeiDou Navigation Satellite System with global coverage (BDS-3) presents significant opportunities for various applications, including precision agriculture and autonomous driving, among others. With its global spatial coverage and hybrid space constellation compri...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2023-06, Vol.15 (12), p.3073
Main Authors: Deng, Ken, Zhou, Peiyuan, Du, Lan, Zhang, Zhongkai, Liu, Zejun
Format: Article
Language:English
Subjects:
Agricultural economics
Algorithms
Altimeters
Altimetry
Ambiguity
Artificial satellites
BDS
BeiDou Navigation Satellite System
carrier phase
Control methods
Data processing
Earth orbits
Geosynchronous orbits
Global navigation satellite system
GNSS-R
Low cost
Monitoring
Navigation satellites
Precision farming
Quality control
Real time
Receivers & amplifiers
Reflectometry
Remote sensing
Satellite constellations
Satellite navigation systems
Satellites
Spatial discrimination
Spatial resolution
Temporal resolution
Water levels
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Summary:The official launch of the Chinese BeiDou Navigation Satellite System with global coverage (BDS-3) presents significant opportunities for various applications, including precision agriculture and autonomous driving, among others. With its global spatial coverage and hybrid space constellation comprising geosynchronous Earth orbit (GEO), inclined geosynchronous orbit (IGSO), and medium Earth orbit (MEO) satellites, BDS can significantly contribute to various GNSS remote sensing applications that require real-time, precise water surface height measurements with high temporal and spatial resolution, such as in tidal monitoring. In this paper, we propose a carrier-phase-based method for BDS Reflectometry (BDS-R) to precisely retrieve real-time water surface height. Firstly, the BDS-R altimetry method is introduced, along with a detailed explanation of the data processing procedures. Secondly, a quality control method tailored to the characteristics of low-cost BDS devices is developed. Thirdly, a land altimetry experiment is conducted to evaluate the precision of BDS-R and analyze the specific contribution of the BDS hybrid constellation. Finally, a water surface altimetry experiment validates the real-time monitoring capabilities for low-cost BDS-R. The results indicate that low-cost BDS-R can achieve real-time centimeter-level water level monitoring with a temporal resolution of 1 s in lakefront environments. The performance of BDS-R can be significantly improved by the BDS hybrid constellation, particularly IGSOs. It is concluded that low-cost BDS-R has great potential for promoting ground-based GNSS remote sensing applications.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs15123073