HY-1C/D卫星CZI数据的岛礁浅海水深遥感无控反演能力评估  被引量：1

作　　者：张华国 马蕴涵 厉冬玲 曹雯婷 王隽 ZHANG Huaguo;MA Yunhan;LI Dongling;Cao Wenting;Wang Juan(State Key Laboratory of Satellite Ocean Environment Dynamics,Second Institute of Oceanography,Ministry of Natural Resources,Hangzhou 310012,China;School of Oceanography,Shanghai Jiao Tong University,Shanghai 200240,China)

机构地区：[1]自然资源部第二海洋研究所卫星海洋环境动力学国家重点实验室,杭州310000 [2]上海交通大学海洋学院,上海200240

出　　处：《遥感学报》2023年第1期116-127,共12页NATIONAL REMOTE SENSING BULLETIN

基　　金：国家重点研发计划(编号:2021YFE0117600);国家自然科学基金(编号:41876208);自然资源部第二海洋研究所中央级公益性科研院所基本科研业务费专项资金(编号:JG2105)。

摘　　要：岛礁浅海水深是海洋重要的基础资料。中国南海岛礁远离大陆,水下现场调查效率低、难度大,难以评估水下地形的长期变化,迫切需要大面积、高频次成像的卫星遥感数据。海洋一号C/D(HY-1C/D)卫星双星组网大大提高了覆盖频次,配置的海岸带成像仪CZI(Coastal Zone Imager)可为岛礁水下探测提供快速的业务化遥感数据服务。为充分发掘两颗卫星的岛礁水深反演能力,本文以中国南海永乐环礁为研究区域,以HY-1C/D CZI多光谱遥感影像为数据源,结合半分析模型和对数比值模型开展了不依赖实测数据的水深反演研究,并与GeoEye-1高分辨率卫星多光谱遥感数据反演结果进行对比。结果表明,HY-1C/D CZI多光谱数据在甘泉岛的水深反演结果与实测数据相比,在0—20 m水深范围内的平均绝对误差分别为1.60 m和1.85 m,平均相对误差分别为22.48%和26.23%;HY-1C/D CZI多光谱数据与基于GeoEye-1数据在甘泉岛的水深反演结果相比,平均绝对偏差分别为1.65 m和1.81 m,平均相对偏差分别为22.33%和23.83%。HY-1C/D CZI与GeoEye-1多光谱数据在永乐环礁各剖面变化趋势的交叉对比结果基本一致。具有高频次、宽覆盖特征的HY-1C/D CZI数据在全球岛礁浅海水深反演方面具有广泛的应用潜力。Shallow water depth of islands and reefs is an important marine element. The islands and reefs in the South China Sea are located far from the mainland, which makes it difficult to assess long-term changes in underwater topography owing to the low efficiency and difficulty in field investigations. Satellite remote sensing imagery capable of large coverage and high frequency is urgently needed. The double satellite network of HY-1C/D greatly improves the coverage frequency. The Coastal Zone Imager(CZI) can provide fast operational remote sensing services for underwater detection of islands and reefs. To fully explore the depth detection capabilities of the two satellites,this study used Yongle Atoll as the research area, with HY-1C/D CZI multispectral remote sensing imagery as the data source. Combined semi-analytical and log-ratio models were used to perform water depth inversion independent of in situ data. The objective is to access the application potential of HY-1C/D CZI imagery for shallow water depth inversion of islands and reefs. This study combined a semi-analytical and logarithmic ratio model( called L-S model) based on satellite remote sensing imagery of HY-1C/D CZI, which includes four bands from visible to near-infrared. The strong linear relationship between water depth and the relevant spectral parameters of the logarithmic ratio model were used to globally restrict the semi-analytical model. After preprocessing the HY-1C/D CZI domestic multispectral imagery, which included geographic projection, geometric precision correction, calculation of the top of atmosphere reflectance, radiometric correction, sun glint correction, and atmospheric correction, a shallow water depth inversion experiment was carried out in Yongle Atoll, independent of in situ water depth or any other priori knowledge based on the L-S model. The water depth inversion results after tidal height correction using the OSU tidal prediction software in Yongle Atoll were compared with the in situ data and cross-compared with the invers

关 键 词：HY-1C/D 海岸带成像仪CZI 岛礁浅海水深 永乐环礁 L-S模型 

分 类 号：P2[天文地球—测绘科学与技术]