[1] 蒋兴伟, Xingwei Jiang, 林明森, Mingsen Lin, 张有广, Youguang Zhang. Progress and prospect of Chinese ocean satellites. Journal of Remote Sensing, 20, 1185-1198(2016).
[2] 林明森, Mingsen Lin, 何贤强, Xianqiang He, 贾永君, Yongjun Jia. Advances in marine satellite remote sensing technology in China. Acta Oceanologica Sinica, 41, 99-112(2019).
[3] 蒋兴伟, Xingwei Jiang, 何贤强, Xianqiang He, 林明森, Mingsen Lin. Progresses on ocean satellite remote sensing application in China. Acta Oceanologica Sinica, 41, 113-124(2019).
[4] Cedric Jamet, Amir Ibrahim, Ziauddin Ahmad. Going beyond standard ocean color observations: Lidar and polarimetry. Frontiers in Marine Science, 6, 1-24(2019).
[5] R Roddewig Michael, H Churnside James, A Shaw Joseph. Lidar measurements of the diffuse attenuation coefficient in Yellowstone Lake. Applied Optics, 59, 3097-3101(2020).
[6] H Churnside1 James, A Shaw Joseph. Lidar remote sensing of the aquatic environment: invited. Applied Optics, 59, C92-C99(2020).
[7] S Moore Timothy, H Churnside James, M Sullivan James. Vertical distributions of blooming cyanobacteria populations in a freshwater lake from LIDAR observations. Remote Sensing of Environment, 225, 347-367(2019).
[8] H Churnside James. Review of profiling oceanographic lidar. Optical Engineering, 53, 051405(2014).
[9] 贺岩, Yan He, 胡善江, Shanjiang Hu, 陈卫标, Weibiao Chen. Research progress of domestic airborne dual-frequency LiDAR detection technology. Laser & Optoelectronics Progress, 55, 082801(2018).
[10] Tuell G, Barb K, Wozencraft J. Overview of the coastal zone mapping imaging lidar (CZMIL): a new multisens airbne mapping system f the US Army Cps of Engineers[C] Proceedings of SPIE, 2010, 7695: 7695R.
[11] 胡善江, Shanjiang Hu, 贺岩, Yan He, 陈卫标, Weibiao Chen. Design of airborne dual-frequency laser radar systemy. Infrared and Laser Engineering, 47, 0930001(2018).
[12] 栾晓宁, Xiaoning Luan, 李菁文, Jingwen Li, 郭金家, Jinjia Guo. Ocean lidar for fishery resources survey and ecological environment monitoring. Acta Laser Biology Sinica, 23, 534-541(2014).
[13] G Solonenko Michael, D Mobley Curtis. Inherent optical properties of Jerlov water types. Applied Optics, 54, 5392-5401(2015).
[14] 徐沛拓, Peituo Xu, 陶雨婷, Yuting Tao, 刘志鹏, Zhipeng Liu. Comparison of oceanic lidar experiments and simulation results. Infrared and Laser Engineering, 49, 0203007(2020).
[15] 刘东, Dong Liu, 周雨迪, Yudi Zhou, 朱小磊, Xiaolei Zhu. Investigation on discrimination characteristcs of atmospheric and oceanic high spectral resolution lidar. Journal of Atmospheric and Environmental Optics, 15, 48-54(2020).
[16] 徐沛拓, Peituo Xu, 刘东, Dong Liu, 周雨迪, Yudi Zhou. Modeling and analysis of oceanic lidar returns with multiple scattering. Journal of Remote Sensing, 49, 0203007(2020).
[17] S. Fry Edward, Emery Yves, Xiaohong Quan. Accuracy limitations on Brillouin lidar measurements of temperature and sound speed in the ocean. Applied Optics, 36, 6887-6894(1997).
[18] Bo Zhou, Qiming Fan, Yong Ma. Experimental analysis on the rapid measurement of a high precision Brillouin scattering spectrum in water using a Fabry-Perot etalon. Laser Physics Letters, 13, 1-9(2016).
[19] Feng Chengyong, Xu Xiaozhen, Diels Jean-Claude. Generation of 300 ps laser pulse with 1.2 J energy by stimulated Brillouin scattering in water at 532 nm. Optics Letters, 39, 3367-3370(2014).
[20] 刘金涛, Jintao Liu, 陈卫标, Weibiao Chen, 宋小全, Xiaoquan Song. Potential for measurement of water Brllouin scattering with heterodyne lidar. Journal of Ocean University of Qingdao, 32, 139-144(2002).
[21] 高玮, Wei Gao, 吕志伟, Zhiwei Lv, 何伟明, Weiming He. Efects of salinity and pressureon the ocean temperature measurement by Brillouin lidarr. Journal of Harbin Institute of Technology, 40, 354-357(2008).
[22] Joyanto Mukerjee. Remote Sensing of Ocean Waters with Raman Brillouin Scattering[M]. Australia: DSTO Aeronautical Maritime Research Labaty, 2001: 222.
[23] H Churnsidei James, D Marchbanks Richard. Calibration of an airborne oceanographic lidar using ocean back scattering measurements from space. Optics Express, 27, A536-A542(2019).
