Volume 5,Issue 2
Fall 204
Multi-source Data Analysis of the Ocean-Meteorology Coupling Mechanism from the Perspective of Satellite Observations
This paper aims to analyze the ocean-meteorology coupling mechanism from the perspective of satellite observations through multi-source data. By using multi-source data such as satellite remote-sensing data and in situ observation data, the interaction relationships between oceanic and meteorological elements and their coupling mechanisms are deeply explored. The research results contribute to a better understanding of the ocean and meteorological systems, improve the capabilities of climate prediction and marine environmental monitoring, and provide a scientific basis for addressing climate change and marine disasters.
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2. Li W, Liu S, Li X, et al. (2020) Application Progress of Satellite Remote-Sensing in Meteorological Services in Hainan. Advances in Meteorological Science and Technology, 10(4): 114–119.
3. Du Y, Dong X, Jiang X, et al. (2022) Satellite Plan for Observing Multi-Scale Structures of the Global Sea-Surface Current Field. Chinese Journal of Space Science, 42(5): 849–861.
4. Yu X (2022) Inversion and Prediction of Air-Sea Interface Meteorological Elements Using Neural Network Methods and Estimation of Heat Flux, thesis, Nanjing University of Information Science and Technology.
5. Li M (2022) Research on the Air-Sea Response of Typhoons in the South China Sea Based on a High-Resolution Air-Sea Coupled Model, thesis, Nanjing University of Information Science and Technology.
6. Wang T (2022) Research on the Coupling of Upper-Layer Ocean Biochemistry and Physical Processes During Typhoon Passage, thesis, Guangdong Ocean University.
7. Gao Y (2022) Analysis of the Scaling and Coupling Relationships Between Along-Track Wind Speed and Wave Height of the China-France Oceanography Satellite, thesis, Xiamen University.
8. Liu Y (2022) Influence of Ocean Optical Properties and Solar Radiation Attenuation Patterns on the Heat Capacity of the Northwestern Atlantic Ocean and Hurricane Intensity, thesis, Xiamen University.
9. Wang S (2021) Evolution Process of Large Eddies in the Arabian Sea and Their Impact on Air-Sea Interaction, thesis, Nanjing University of Information Science and Technology.
10. Zhang Z (2020) Research on the Influence and Mechanism of Air-Sea Coupling on Tropical Cyclone Forecasting, thesis, National University of Defense Technology.