Dr. Kuangchao Wu is an emerging researcher in relativistic geodesy, specializing in high-precision geopotential determination through advanced GNSS time-frequency transfer techniques. His work significantly advances chronometric leveling by integrating atomic clock frequency comparison, carrier-phase time-frequency transfer, and CVSTT/TWSTFT methods to measure gravity potential differences across regional and intercontinental baselines. He has contributed influential publications in leading journals such as Remote Sensing, Advances in Space Research, Geo-Spatial Information Science, and Geomatics and Information Science of Wuhan University, addressing innovations in GNSS frequency-shift modeling, cross-sea orthometric height determination, and clock-based geopotential measurement. His research has strengthened the theoretical and experimental foundations of relativistic geodesy, enabling highly accurate determination of Earth’s gravity potential using next-generation atomic clocks. With recognized contributions in GNSS-based relativistic modeling and precision experiments, Dr. Kuangchao Wu continues to play a vital role in advancing modern geodetic science and its applications in Earth observation and reference frame enhancement.

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