红外与毫米波学报2025,Vol.44Issue(6):887-895,9.DOI:10.11972/j.issn.1001-9014.2025.06.007
基于ICESat-2单光子激光雷达的南海浪高探测
Detection of wave height in the South China Sea with ICESat-2 photon-counting lidar
摘要
Abstract
In September 2018,NASA launched ICESat-2(Ice,Cloud,and Land Elevation Satellite-2)which carried the unique spaceborne photon-counting lidar system ATLAS(Advanced Topographic Laser Altimeter System)in orbit so far.The lidar has the characteristics of multi-beams,high repetition rate,high ranging accuracy,and has great poten-tial in obtaining high-precision and high-resolution wave parameters.In this paper,an optimized algorithm based on point density with adaptive thresholds is proposed to extract sea surface signal photons,and a method based on sea sur-face geometry shape to calculate the significant wave height value of sea waves,which proves that the significant wave height value that is consistent with the NASA marine product can be obtained using photon data with a length of 1 km,better than NASA's 3-7 km wave height data resolution.Significant wave height data are used to generate a wave height space distribution with 0.2°×0.2° grids in the South China Sea,and to analyze the spatial distribution characteris-tics of significant wave height and the law of its variation with time.It shows that the significant wave height values in the sea areas around the Zhongsha Islands and the Luzon Strait are larger throughout the year,while the values in the Beibu Gulf,the Natuna Islands,the Sulu Sea,and the Celebes Sea are smaller.The changes of wave height and wind speed with time in the South China Sea are highly synchronous,indicating that the wave in this area is mainly driven by wind.The quantitative relationships between the significant wave height and wind speed in nearshore shallow water and offshore deep water are given respectively in combination with the wind speed data of ERA5,and prove that the signifi-cant wave height of the deep water is greater than the shallow water under the same wind speed.With the help of ICE-Sat-2 photon-counting lidar,a higher resolution wave height space distribution can be obtained,especially accurate wave heights in nearshore shallow water areas,which can fill the space and time gaps of other observation methods of wave,that is helpful to the optimization of wave numerical model and the oceanographic research.关键词
单光子激光雷达/海面探测/信号去噪/有效波高Key words
photon-counting lidar/ocean surface detection/signal denoising/significant wave height分类
信息技术与安全科学引用本文复制引用
周智标,杨坚,宋越,栾超,杨喆,李松..基于ICESat-2单光子激光雷达的南海浪高探测[J].红外与毫米波学报,2025,44(6):887-895,9.基金项目
航天系统装备预先研究项目 Supported by the Equipment Pre-research Project of Aerospace Systems Department ()
