Improvement of Sea Surface Height Measurements of HY-2A Satellite Altimeter Using Jason-2 |
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| Authors: | Wei Cui Wei Wang Zhang Jie Yongjun Jia |
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| Institution: | 1. Physical Oceanography Lab, Qingdao Collaborative Innovation Center of Marine Science and Technology, Ocean University of China, Qingdao, China;2. The First Institute of Oceanography, State Oceanic Administration, Qingdao, China;3. The First Institute of Oceanography, State Oceanic Administration, Qingdao, China;4. National Satellite Ocean Application Service, State Oceanic Administration, Beijing, China |
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| Abstract: | AbstractHY-2A, which was launched on 16 August 2011, is the Chinese first microwave ocean dynamics environment satellite. Analyses of HY-2A daily sea-level anomaly data and HY-2A–Jason-2 (H-J) dual crossover sea-level anomaly differences show that HY-2A has measurement differences that mainly refer to an orbit error. H-J crossover differences and HY-2A–HY-2A (H-H) crossover differences give an estimate of the HY-2A orbit error. Smoothing cubic-spline functions are then used to obtain a continuous estimation of the HY-2A orbit error over time. On the basis of the simultaneous global minimization of H-J dual crossover differences and H-H crossover differences, the HY-2A observation error is efficiently reduced and height measurement data that are more precise are obtained. Specifically, the range bias/trend of the HY-2A altimeter is removed effectively and the root mean square of H-J crossover sea-level anomaly differences decrease from above 60?cm to 5.64?cm, and the standard deviation of H-J crossover differences decreases from 6.68 to 5.64?cm. Furthermore, the rms and standard deviations of H-H crossover differences both decrease from 7.46 to 6.55?cm. The results show that HY-2A after correction has a measurement accuracy and precision that are comparable to those of Jason-2. |
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| Keywords: | crossover analysis HY-2A satellite altimeter measurement accuracy sea surface height the orbit error correction |
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