遥感水深反演论文（大气校正、泥沙提取、图像处理算法）

[{"title":"（ 16 个子文件 17.28MB ） 遥感水深反演论文（大气校正、泥沙提取、图像处理算法）","children":[{"title":"水深反演论文","children":[{"title":"卫星遥感数据的像元地面反射率反演计算.caj <span style='color:#111;'> 320.01KB </span>","children":null,"spread":false},{"title":"黄河口海域水深分布的遥感研究.caj <span style='color:#111;'> 262.59KB </span>","children":null,"spread":false},{"title":"卫星遥感水深反演技术发展与模型分析.caj <span style='color:#111;'> 418.49KB </span>","children":null,"spread":false},{"title":"经泥沙遥感参数校正的辐射沙洲水深遥感模型研究.nh <span style='color:#111;'> 3.15MB </span>","children":null,"spread":false},{"title":"Landsat7卫星快速格式数据产品.caj <span style='color:#111;'> 80.30KB </span>","children":null,"spread":false},{"title":"Text_2009-05-19-02-29-29ng0djvfg0ysufpegjjknf145_长江南通河段卫星遥感水深探测试验.pdf <span style='color:#111;'> 227.63KB </span>","children":null,"spread":false},{"title":"长江口水体表层泥沙浓度的遥感反演与分析.nh <span style='color:#111;'> 6.93MB </span>","children":null,"spread":false},{"title":"基于BP人工神经网络的水体遥感测深方法研究.caj <span style='color:#111;'> 1.26MB </span>","children":null,"spread":false},{"title":"河口悬沙粒径对遥感反射率影响的理论分析与实验观测.caj <span style='color:#111;'> 300.03KB </span>","children":null,"spread":false},{"title":"长江口水域多光谱遥感水深反演模型研究.caj <span style='color:#111;'> 176.18KB </span>","children":null,"spread":false},{"title":"黄河口泥沙特性和输移研究综述.caj <span style='color:#111;'> 49.64KB </span>","children":null,"spread":false},{"title":"遥感图像大气校正方法综述.caj <span style='color:#111;'> 68.08KB </span>","children":null,"spread":false},{"title":"Landsat7的自动云量评估.caj <span style='color:#111;'> 61.89KB </span>","children":null,"spread":false},{"title":"遥感图像地物反射率反演.kdh <span style='color:#111;'> 1.87MB </span>","children":null,"spread":false},{"title":"基于泥沙因子的水深遥感反演模型.kdh <span style='color:#111;'> 1022.57KB </span>","children":null,"spread":false},{"title":"水环境动态监测与评价系统的设计与实现.kdh <span style='color:#111;'> 2.81MB </span>","children":null,"spread":false}],"spread":false}],"spread":true}]