Technology advancement and challenges in spaceborne Lidar for earth science

机译：地球科学太空疯狂潮汐的技术进步与挑战

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The NASA Earth Sciences Program is structured around six principal focus areas - Atmospheric Composition, Carbon and Ecosystems, Climate Variability and Change, Earth Surface and Interior Structure, Water and Energy Cycle, and Weather - all of which can be augmented by Lidar observations of atmospheric, oceanographic, terrestrial, and cryospheric environmental parameters. In 2007, the National Research Council (NRC) Decadal Survey recommended an integrated strategy for Earth science and applications from space that included numerous recommendations for Laser and Lidar based observations.[1]. For the past 15 years, NASA's Earth Science Technology Office (ESTO) [2] has invested in new technologies in the area of Lidar remote sensing to enable new Earth Science measurement capabilities. Much progress has been made, leading to new airborne and spaceborne instrumentation. However, significant challenges remain before the potential of Lidar can be realized.

机译：美国宇航局地球科学计划围绕六个主要重点，碳和生态系统，气候变异性和变化，地球表面和内部结构，水和能量循环，以及天气 - 所有这些都是由大气的延迟观测增强的，海洋学，陆地和触手的环境参数。 2007年，国家研究委员会（NRC）Decadal调查建议从空间的地球科学和应用程序综合战略，其中包括众多关于激光和激光和激光的观测的建议。[1]。在过去的15年里，美国宇航局的地球科学技术办公室（ESO）[2]已经投资了LIDAR遥感领域的新技术，以实现新的地球科学测量能力。已经取得了很大的进展，导致新的空中和星载仪器。但是，在激光雷达的潜力可以实现之前仍然存在重大挑战。

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《IEEE International Geoscience and Remote Sensing Symposium》|2017年|714p|共4页
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George Komar;
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中图分类 TP7-53;
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Sea measurements; Laser radar; Extraterrestrial measurements; Geoscience; Optical fiber amplifiers; Fiber lasers;

机译：海量测量;激光雷达;外星测量;地球科学;光纤放大器;光纤激光器;

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Technology advancement and challenges in spaceborne Lidar for earth science

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