海洋一号卫星水色水温扫描仪红外信息获取          下载免费PDF全文

范文龙  黄小仙  傅雨田 《遥感学报》2022,26(8):1589-1601

对海温分布与变化的探测是海洋一号卫星主载荷水色水温扫描仪（简称水色仪，COCTS）的主要任务之一。考虑到对海冰和海洋上空台风等气象要素的同时探测，实际水温探测通道的动态范围要求涵盖200—320 K的温度区间。由于某些洋面区域微弱温度的变化将会导致严重天气灾害的发生，因此海温探测通道还需满足探测灵敏度与定量化的精度要求。本文旨在依据技术指标要求，设计水色仪红外通道的信息获取电路，包括对探测器微弱信号进行放大的前置放大电路，消除基础电平以提高动态范围的交流放大器，以及实现信号的直流恢复与动态范围调整的通道放大电路。基于对所使用的光导型红外探测器工作机理的研究，结合水色仪的系统组成与特性，为确保同时满足高动态范围与高灵敏度这一对相互矛盾的指标要求，通过理论分析计算、电路仿真等方法，确定各级放大电路的形式及参数。在真空环境模拟实验室对水色仪的系统性能进行测定，以验证信息获取电路设计的合理性。在实验室进行的红外辐射定标结果表明和在轨测试结果均表明，水色仪两个红外通道的动态范围和噪声等效温差（NETD）均能较好的满足技术指标要求。红外通道能够实时跟踪星上黑体信号随时间与周围环境的变化，可据此来对红外通道的定标系数进行即时修正，从而达到预期的在轨实时辐射定标的目的，为定量化反演海温奠定了基础，并能获取且制作出高质量的全球海温产品。  相似文献   

Remote sensing classification approach to large-scale crop cultivation identification: A case study of the Aral Sea Basin     

Zhuojian Wen  Desheng Jiang  Ye Jing  Guilin Liu 《Transactions in GIS》2023,27(8):2278-2296

Since the collapse of the Soviet Union, the crop cultivation structure in the Aral Sea Basin has changed dramatically, and these changes are worth studying. However, historical crop remote sensing mapping at the watershed scale remains challenging, especially crop misclassification at the cropland edge due to mixed pixels. Therefore, we proposed a field segmentation approach to constrain field edges based on time-series Sentinel-2 remote sensing images and the Google Earth Engine platform and then employed the random forest algorithm to perform crop classification based on time series Landsat/Sentinel-2 images and crop phenology information to produce historical crop maps in the Aral Sea Basin from the 1990s onward. The results showed that the intersection over union between the extracted field edges and in situ-measured field size data was 0.65. The overall accuracy of crop mapping was 95.2% in 2019. Then, we extended our method to historical mapping over the 1991–2015 period with accuracies ranging from 82.8% to 91.3%. Moreover, our method applied to historical mapping works well in terms of accuracy and policy matching. These findings indicate that our method can accurately distinguish cropland edges to reduce classification errors due to mixed pixels. This method is promising for solving the cropland edge problem for historical crop mapping in the Aral Sea Basin and can potentially provide a reference for historical crop classification in other watersheds of the world.  相似文献