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个人信息Personal Information
教授 博士生导师 硕士生导师
教师拼音名称:Xia Haiyun
电子邮箱:003333@nuist.edu.cn
所在单位:大气物理学院
职务:院长
学历:博士研究生毕业
办公地点:气象楼901
性别:男
联系方式:17756036288
职称:教授
毕业院校:北京航空航天大学
博士生导师
硕士生导师
学科:大气遥感与大气探测
其他联系方式Other Contact Information
通讯/办公地址 : 南京市浦口区宁六路219号南京信息工程大学气象楼905
移动电话 : 17756036288
邮箱 : xiahy@nuist.edu.cn
个人简介Personal Profile
个人介绍:
夏海云,江苏丹阳人,2002年6月加入中国共产党,南京信息工程大学教授,博士生导师。2011年获得北京航空航天大学-渥太华大学-约克大学联合培养博士学位,2019年入选中共中央组织部万人计划青年拔尖人才,曾获军队科技进步一等奖、日内瓦国际发明特别金奖、全国博士后创新创业大赛金奖。他20年来专注激光雷达研究与应用,发表论文百余篇(SCI 60篇),获得授权国家发明专利78项。
现任: 南京信息工程大学大气物理学院院长, 中国科学技术大学-合肥微尺度物质科学国家研究中心双聘教授, 国防科技大学兼职教授, 中科院软件所兼职研究员, 中航工业304所特聘研究员, 江苏省首批军民融合领军专家, 美国光学协会高级会员, 中国光学工程学会理事, 全国量子计算与测量标委会委员, 中国气象局气溶胶与云降水重点实验室主任, 中国质检协会碳中和绿色发展专委会常务理事, 中国气象服务协会综合减灾技术委员会副主任, 中国气象服务协会地球系统社会化观测委员会副主任, 中国气象局雷达气象科技咨询专委会委员, 中国气象局雷达气象中心雷达资料质量控制与同化应用实验室主任,苏港澳高校遥感与环境专业联盟副主任, 红外与激光工程、光学学报、计测技术杂志青年编委, Remote Sensing特邀编辑、Frontiers in remote sensing副主编 。
研究方向:(1)量子和超导技术在激光雷达中的应用;(2)对流层大气物理化学特性研究;(3)目标识别与跟踪;(4)超快飞秒目标探测和气体成分分析;(5)多普勒、高光谱、偏振、共振荧光、温湿压、编码、云和大气成分激光雷达。
教育经历:
北京航空航天大学
光电子学——博士
中科院安光所+苏州大学
大气光学——理学硕士
苏州大学
物理学——理学学士
工作经历:
曾获荣誉:
全国博士后创新创业大赛金奖
中国光学工程学会“光华青年”
江苏军民融合领军专家
中国光学工程学会理事
70周年国庆气象保障任务“积极贡献”奖
中国科学人年度人物 杰出青年科学家奖
美国光学协会高级会员
全国量子计算与测量标准化技术委员会委员
日内瓦国际发明展特等金奖
军队科技进步一等奖
发表论文:
60) Bin Yue, Saifen Yu, Manyi Li, Tianwen Wei, Jinlong Yuan, Zhen Zhang, Jingjing Dong, Yue Jiang, Yuanjian Yang, Zhiqiu Gao, Haiyun Xia*, "Local scale horizontal CO₂ flux estimation incorporating differential absorption lidar and coherent Doppler wind lidar", Remote Sensing, 14, 5150, 2022. IF: 5.349.
59) Yunpeng Zhang, Yunbin Wu, Jingjing Dong, Haiyun Xia*, "1.8m/0.5s resolution coherent Doppler wind lidar using continuous phase modulation", IEEE Photonics Journal, 14(5), 6047706, 2022. IF: 2.250.
58) Yunpeng Zhang, Yunbin Wu, Haiyun Xia*, "High resolution coherent Doppler wind lidar incorporating phase-shift keying", Journal of Lightwave Technology, 40(22), 7471, 2022. IF: 4.439.
57) Lu Wang, Lijie Zhao, Yunpeng Zhang, Yunbin Wu, and Haiyun Xia*, "Tunable dual-frequency coherent Doppler lidar using bi-directional electro-optic modulation in a Sagnac loop", Optics Communications, 526, 128852, 2022. IF: 2.335.
56) Yunbin Wu, Yunpeng Zhang, Jinlong Yuan, Zhifeng Shu, Jingjing Dong, Manyi Li, Lijie Zhao, and Haiyun Xia*, "Suppression of crosstalk in coding CDWL by active FOV modulation with deformable mirror", Optics Express, 30(16), 29485-29494, 2022. IF: 3.833.
55) Pu Jiang, Jinlong Yuan, Kenan Wu, Lu Wang, and Haiyun Xia*, "Turbulence detection in the atmospheric boundary layer using coherent Doppler wind lidar and microwave radiometer", Remote Sensing, 14(12), 2951, 2022. IF: 5.349.
54) Xiu Wu, Jinlong Yuan, Tianwen Wei, Yunpeng Zhang, Kenan Wu, and Haiyun Xia*, "Variation of aerosol optical depth measured by sun photometer at a rural site near Beijing during the 2017–2019 period", Remote Sensing, 14(12), 2908, 2022. IF: 5.349.
53) Jinlong Yuan, Yunbin Wu, Zhifeng Shu, Lian Su, Dawei Tang, Yuanjian Yang, Jingjing Dong, Saifen Yu, Zhen Zhang, and Haiyun Xia*, "Real-time synchronous 3-D detection of air pollution and wind using a solo coherent Doppler wind lidar", Remote Sensing, 14(12), 2809, 2022. IF: 5.349.
52) Lian Zong, Yuanjian Yang*, Haiyun Xia*, Meng Gao, Zhaobin Sun, Zuofang Zheng, Xianxiang Li, Guicai Ning, Yubin Li, and Simone Lolli, "Joint occurrence of heatwaves and ozone pollution and increased health risks in Beijing, China: roles of synoptic weather pattern and urbanization", Atmospheric Chemistry and Physics, 22, 6523-6538, 2022. IF: 7.197.
51) Dawei Tang, Tianwen Wei, Jinlong Yuan, Haiyun Xia*, and Xiankang Dou, "Observation of bioaerosol transport using wideband integrated bioaerosol sensor and coherent Doppler lidar," Atmospheric Measurement Techniques, 15, 2819-2838, 2022. IF: 4.184.
50) Jinlong Yuan, Lian Su, Haiyun Xia*, Yi Li, Ming Zhang, Guangju Zhen, and Jianyu Li, "Microburst, windshear, gust front, and vortex detection in mega airport using a single coherent Doppler wind lidar," Remote Sensing, 14(7), 1626, 2022. IF: 5.349.
49) Yunpeng Zhang, Yunbin Wu, Haiyun Xia*, "Spatial Resolution Enhancement of Coherent Doppler Lidar by Pseudo-Random Phase Coding," Journal of Lightwave Technology, 40(13), 4467-4473, 2022. IF: 4.439.
48) Lu Wang, Jinlong Yuan, Haiyun Xia*, Lijie Zhao, and Yunbin Wu, "Marine mixed layer height detection using ship-borne coherent Doppler wind lidar based on constant turbulence threshold," Remote Sensing, 14(3), 745, 2022. IF: 5.349.
47) Tianwen Wei, Haiyun Xia*, Kenan Wu, Yuanjian Yang, Qi Liu, and Weidong Ding, "Dark/bright band of melting layer detected by coherent Doppler lidar and micro rain radar," Optics Express, 30(3), 3654-3664, 2022. IF: 3.833.
46) Mingjia Shangguan, Jiawei Qiu, Jinlong Yuan, Zhifeng Shu and Lingfeng Zhou, Haiyun Xia*, "Doppler wind lidar from UV to NIR: A review with case study examples," Frontiers in Remote Sensing, 2, 787111, 2022. IF: 3.229.
45) Yunpeng Zhang, Yunbin Wu, and Haiyun Xia*, "Spatial resolution enhancement of coherent Doppler wind lidar using differential correlation pair technique," Optics Letters, 46(22), 5550-5553, 2021, Highlighted Article. IF: 3.776.
Editor's Picks serve to highlight articles with excellent scientific quality and are representative of the work taking place in a specific field.
44) Saifen Yu, Zhen Zhang, Haiyun Xia*, Xiankang Dou, Tengfei Wu, Yihua Hu, Manyi Li, Mingjia Shangguan, Tianwen Wei, Lijie Zhao, Lu Wang, Pu Jiang, Chengjun Zhang, Lixing You, Leigang Tao, and Jiawei Qiu, "Photon-counting distributed free-space spectroscopy," Light: Science & Applications, 10, 212, 2021. IF: 17.782.
43) Jinlong Yuan, Kenan Wu, Tianwen Wei, Lu Wang, Zhifeng Shu, Yuanjian Yang and Haiyun Xia*, "Cloud seeding evidenced by coherent Doppler wind lidar," Remote Sensing, 13(19), 3815, 2021. IF: 4.848.
42) Lu Wang, Wei Qiang, Haiyun Xia*, Tianwen Wei, Jinlong Yuan, and Pu Jiang, "Robust solution for boundary layer height detections with coherent Doppler wind lidar," Advances in Atmospheric Sciences, 38, 1920-1928, 2021. IF: 3.158.
41) Lijie Zhao, Chunbo Zhao, Chuanqing Xia, Zhen Zhang, Tengfei Wu, and Haiyun Xia*, "Nanometer precision time-stretch femtosecond laser metrology using phase delay retrieval," Journal of Lightwave Technology, 39(15), 5156-5162, 2021. IF: 4.142.
40) Tianwen Wei, Haiyun Xia*, Bin Yue, Yunbin Wu, and Qi Liu, "Remote sensing of raindrop size distribution using Coherent Doppler Lidar," Optics Express, 29(11), 17246-17257, 2021. IF: 3.894.
39) Saifen Yu, Zhen Zhang, Manyi Li, and Haiyun Xia*, "Multi-frequency differential absorption lidar incorporating comb-referenced scanning laser for gas spectrum analysis," Optics Express, 29(9), 12984-12995, 2021. IF: 3.894.
38) Jinlong Yuan, Haiyun Xia*, Tianwen Wei, Lu Wang, Bin Yue, and Yunbin Wu, "Identifying cloud, precipitation, windshear, and turbulence by deep analysis of power spectrum of coherent Doppler wind lidar," Optics Express, 28(25), 37406-37418, 2020. IF: 3.669.
37) Xianghui Xue*, Dongsong Sun, Haiyun Xia, and Xiankang Dou*, "Inertial gravity waves observed by a Doppler wind LiDAR and their possible sources," Earth and Planetary Physics, 4(4), 1-11, 2020. IF: 2.075.
36) Tianwen Wei, Haiyun Xia*, Yunbin Wu, Jinlong Yuan, Chong Wang, and Xiankang Dou, "Inversion probability enhancement of all-fiber CDWL by noise modeling and robust fitting," Optics Express, 28(20), 29662-29675, 2020. IF: 3.669.
35) Lijie Zhao, Haiyun Xia*, Yihua Hu, Tengfei Wu, Zhen Zhang, Jibo Han, Yunbin Wu, Tiancheng Luo, "Time-Stretched Femtosecond Lidar Using Microwave Photonic Signal Processing," Journal of Lightwave Technology, 38(22), 6265-6271, 2020. IF: 4.288.
34) Zhen Zhang, Haiyun Xia*, Saifen Yu, Lijie Zhao, Tianwen Wei, Manyi Li, "Femtosecond imbalanced time-stretch spectroscopy for ultrafast gas detection," Applied Physics Letters, 116, 171106, 2020. IF: 3.597.
33) Tianwen Wei, Haiyun Xia*, Jianjun Hu, Chong Wang, Mingjia Shangguan, Lu Wang, Mingjiao Jia, and Xiankang Dou, "Simultaneous wind and rainfall detection by power spectrum analysis using a VAD scanning coherent Doppler lidar," Optics Express, 27(22), 31235-31245, 2019, Highlighted Article. IF: 3.561.
Editor's Picks serve to highlight articles with excellent scientific quality and are representative of the work taking place in a specific field.
32) Mingjiao Jia, Jinlong Yuan, Chong Wang, Haiyun Xia*, Yunbin Wu, Lijie Zhao, Tianwen Wei, Jianfei Wu, Lu Wang, Sheng-Yang Gu, Liqun Liu, Dachun Lu, Rulong Chen, Xianghui Xue, and Xiankang Dou, "Long-live high frequency gravity waves in atmospheric boundary layer: observations and simulations," Atmospheric Chemistry and Physics, 19, 15431-15446, 2019. IF:5.668.
31) Ju Ma, Mingjia Shangguan, Haiyun Xia*, Xin Fang*, Xianghui Xue, Xiankang Dou, "Rayleigh and sodium lidar system incorporating time-division and wavelength-division multiplexing," Optics Communications, 448, 116-123, 2019. IF: 1.961.
30) Chong Wang, Mingjiao Jia, Haiyun Xia*, Yunbin Wu, Tianwen Wei, Xiang Shang, Chengyun Yang, Xianghui Xue, and Xiankang Dou, "Relationship analysis of PM2.5 and boundary layer height using an aerosol and turbulence detection lidar," Atmospheric Measurement Techniques, 12(6), 3303-3315, 2019. IF: 3.400.
29) Chong Wang, Haiyun Xia*, Yunbin Wu, Jingjing Dong, Tianwen Wei, Lu Wang, and Xiankang Dou, "Meter-scale Spatial Resolution Coherent Doppler Wind Lidar Based on Golay Coding," Optics Letters, 44(2), 311-314, 2019. IF: 3.866.
28) Chao Yu, Jiawei Qiu, Haiyun Xia*, Xiankang Dou, Jun Zhang* and Jian-Wei Pan, "Compact 1.5μm cloud lidar with a multi-mode fiber coupling free-running InGaAs/InP single-photon detector," Review of Scientific Instruments, 89, 103106, 2018. IF: 1.428.
27) Chong Wang, Haiyun Xia*, Yanping Liu, Shengfu Lin, Xiankang Dou, "Spatial resolution enhancement of coherent Doppler wind lidar using joint time-frequency analysis," Optics Communications, 424, 48-53, 2018. IF: 1.887.
26) Xiang Shang, Haiyun Xia*, Xiankang Dou, Mingjia Shangguan, Manyi Li, Chong Wang, "Adaptive inversion algorithm for 1.5 μm visibility lidar incorporating in situ Angstrom wavelength exponent," Optics Communications, 418, 129-134, 2018. IF: 1.887.
25) Jiawei Qiu, Haiyun Xia*, Xiankang Dou, Manyi Li, Mingjia Shangguan, Chong Wang, Xiang Shang, Shengfu Lin, and Jianjiang Liu, "Micro-pulse polarization lidar at 1.5 μm using a single superconducting nanowire single photon detector," Optics Letters, 42(21), 4454-4457, 2017. IF: 3.416.
24) Mingjia Shangguan, Haiyun Xia*, Chong Wang, Jiawei Qiu, Shengfu Lin, Xiankang Dou, Qiang Zhang, and Jian-wei Pan, "Dual-frequency Doppler lidar for wind detection with a superconducting nanowire single-photon detector," Optics Letters, 42(18), 3541-3544, 2017, Featured Article. IF: 3.416.
News Release:
23) Chong Wang, Haiyun Xia*, Mingjia Shangguan, Yunbin Wu, Lu Wang, Jiawei Qiu, and Renjun Zhang, "1.5 µm polarization coherent lidar incorporating time-division multiplexing," Optics Express, 25(17), 20663-20674, 2017. IF: 3.307.
22) Chao Yu, Mingjia Shangguan, Haiyun Xia*, Jun Zhang, Xiankang Dou, and Jian-Wei Pan, "Fully integrated free-running InGaAs/InP single-photon detector for accurate lidar applications," Optics Express, 25(13), 14611-14620, 2017. IF: 3.307.
21) Mingjia Shanguan, Chong Wang, Haiyun Xia* ,Guoliang Shentu, Xiankang Dou, Qiang Zhang, and Jian-Wei Pan, "Brillouin optical time domain reflectometry for fast detection of dynamic strain incorporating double-edge technique," Optics Communications, 398, 95-100, 2017. IF: 1.588.
20) Haiyun Xia, Mingjia Shangguan, Chong Wang, Guoliang Shentu, Jiawei Qiu, Qiang Zhang, Xiankang Dou*, Jianwei Pan, "Micro-pulse upconversion Doppler lidar for wind and visibility detection in the atmospheric boundary layer," Optics Letters, 41(22), 5218-5221, 2016. IF: 3.04.
News Release:
19) Jiawei Qiu, Haiyun Xia*, Xiankang Dou, Mingjia Shangguan, Chong Wang, Yunpeng Zhang, "Optimization of scanning Fabry-Perot interferometer in the high spectral resolution lidar for stratospheric temperature detection," Optical Engineering, 55(8), 084107, 2016. IF: 1.082.
18) Mingjia Shangguan, Haiyun Xia, Chong Wang, Jiawei Qiu, Guoliang Shentu, Qiang Zhang, Xiankang Dou* ,and Jian-wei Pan, "All-fiber upconversion high spectral resolution wind lidar using a Fabry-Perot interferometer," Optics Express, 24, 19322-19336, 2016. IF: 3.148.
17) Haiyun Xia, Mingjia Shangguan, Guoliang Shentu, Chong Wang, Jiawei Qiu, Mingyang Zheng, Xiuping Xie, Xiankang Dou* ,Qiang Zhang, Jian-Wei Pan, "Brillouin optical time-domain reflectometry using up-conversion single-photon detector," Optics Communications, 381, 37-42, 2016. IF: 1.48.
16) Mingjia Shangguan, Haiyun Xia* ,Xiankang Dou, Chong Wang, Jiawei Qiu, Yunpeng Zhang, Zhifeng Shu, and Xianghui Xue, “Comprehensive wind correction for a Rayleigh Doppler lidar from atmospheric temperature and pressure influences and Mie contamination,” Optical Engineering, 24(9), 094212, 2015. IF: 0.984.
15) Haiyun Xia, Guoliang Shentu, Mingjia Shangguan, Xiuxiu Xia, Xiaodong Jia, Chong Wang, Jun Zhang, Jason S. Pelc, M. M. Fejer, Qiang Zhang*, Xiankang Dou, and Jian Wei Pan, “Long-range micro-pulse aerosol lidar at 1.5 µm with an up-conversion single-photon detector,” Optics Letters, 40(8), 1579-1582, 2015. IF: 3.292.
News Release:
14) Feifei Zhang, Xiankang Dou, Dongsong Sun, Zhifeng Shu*, Haiyun Xia, Yuanyuan Gao, Dongdong Hu, and Mingjia Shangguan, “Analysis on error of laser frequency locking for fiber optical receiver in direct detection wind lidar based on Fabry-Perot interferometer and improvements”, Optical Engineering, 53(12), 124102, 2014. IF: 0.984.
13) Ruocan Zhao, Haiyun Xia, Xiankang Dou* ,Dongsong Sun, Yuli Han, Mingjia Shangguan, Jie Guo, Zhifeng Shu. “Correction of temperature impact on the wind retrieval from a mobile Rayleigh Doppler lidar”, Chinese Physics B, 24(2), 024218, 2014. IF: 1.436.
12) Xiankang Dou*, Yuli Han, Dongsong Sun, Haiyun Xia, Zhifeng Shu, Ruocan Zhao, Mingjia Shangguan and Jie Guo, “Mobile Rayleigh Doppler lidar for wind and temperature measurements in the stratosphere and lower mesosphere”, Optics Express, 22(105), A1203-A1221, 2014. IF: 3.525.
11) Haiyun Xia, Xiankang Dou*, Mingjia Shangguan, Ruocan Zhao, Yuli Han, Zhifeng Shu, Xianghui Xue, Yan Han, Chong Wang, Jiawei Qiu, “Stratospheric temperature measurement with scanning Fabry-Perot interferometer for wind retrieval from mobile Rayleigh Doppler lidar,” Optics Express, 22(18), 21775-21789, 2014. IF: 3.525.
10) Yuli Han, Xiankang Dou*, Dongsong Sun, Haiyun Xia and Zhifeng Shu, "Analysis on wind retrieval methods for Rayleigh Doppler lidar", Optical Engineering, 53(6), 061607, 2013. IF: 0.984.
9) Zhifeng Shu, Xiankang Dou*, Haiyun Xia, Dongsong Sun, Yan Han, Hyunki Cha, Dukhyeon Kim, Guocheng Wang, Sunghoon Baik, and Dongdong Hu, “Low stratospheric wind measurement using mobile Rayleigh Doppler wind lidar,” Journal of the Optical Society of Korea, 16(2), 141-144, 2012. IF: 0.827.
8) Haiyun Xia*, Xiankang Dou, Dongsong Sun, Zhifeng Shu, Xianghui Xue, Yan Han, Dongdong Hu, Yuli Han, and Tingdi Cheng, “Mid-altitude wind measurements with mobile Rayleigh Doppler lidar incorporating system-level optical frequency control method,” Optics Express, 20(4), 15286-15300, 2012. IF: 3.525.
News Release:
7) Haiyun Xia* and Chunxi Zhang, "Ultrafast and Doppler-free femtosecond optical ranging based on dispersive frequency-modulated interferometry," Optics Express, 18, 4118-4129, 2010. IF: 3.525.
6) Haiyun Xia, Chao Wang, Sebastien Blais, and Jianping Yao*, "Ultrafast and precise interrogation of fiber Bragg grating sensor based on wavelength-to-time mapping incorporating higher-order dispersion," Journal of Lightwave Technology, 28(3), 254-261, 2010. IF: 4.142.
5) Haiyun Xia, and Jianping Yao*, "Characterization of Sub-Picosecond Pulses Based on Temporal Interferometry with Real-Time Tracking of higher-Order Dispersion and Optical Time Delay," Journal of Lightwave Technology, 27(22), 5029-5037, 2009. IF: 4.142.
4) Haiyun Xia* and Chunxi Zhang, "Ultrafast ranging lidar based on real-time Fourier transformation," Optics Letters, 34, 2108-2110, 2009. IF: 3.179.
3) Haiyun Xia*, Chunxi Zhang, Hongqian Mu, and Dongsong Sun, "Edge technique for direct detection of strain and temperature based on optical time domain reflectometry," Applied Optics, 48, 189-197, 2009. IF: 1.980.
2) Yuanhong Yang*, Haiyun Xia, Wei Jin, "Practical polarization maintaining optical fiber temperature sensor for harsh environment application," Measurement Science and Technology, 18, 3235-3240, 2007. IF: 2.046.
1) Haiyun Xia*, Dongsong Sun, Yuanhong Yang, Fahua Shen, Jinging Dong, and Takao Kobayashi, "Fabry-Perot interferometer based Mie Doppler lidar for low tropospheric wind observation," Applied Optics, 46, 7120-7131, 2007. IF: 1.980.
发明专利:
91、夏海云,赵力杰,窦贤康,“一种基于宽谱光源的单光子成像激光雷达系统”,202010061365.0(已受理)
90、吴云斌,王冲,夏海云,窦贤康,“一种相干差分吸收激光雷达与一种检测气体浓度的方法”,201810813114.6(已受理)
89、章振,夏海云,赵力杰,余赛芬,窦贤康,“一种飞秒激光雷达以及气体成分探测方法”,201810818525.4(已受理)
88、窦贤康,上官明佳,夏海云,薛向辉,“基于铁路网路的激光雷达大气观测系统”,201910437086.7(已受理)
87、薛向辉,上官明佳,岳斌,夏海云,窦贤康,“一种紫外红外同步工作的双频测风激光雷达”,201910444225.9(已受理)
86、贾铭蛟,夏海云,岳斌,王冲,袁金龙,“一种基于LS谱和小波谱的主导重力波识别方法”,201910402946.3(已受理)
85、袁金龙,岳斌,夏海云,“基于飞行仿真平台和测风激光雷达的飞机起降预警方法行”,201910489709.5(已受理)
84、袁金龙,岳斌,夏海云,“一种舰载机着舰轨迹仿真方法及系统”,201910489668.X(已受理)
83、夏海云,上官明佳,吴云斌,窦贤康,“基于单光子探测的相干测风激光雷达”,201910445623.2(已受理)
82、贾铭蛟,夏海云,王冲,岳斌,袁金龙,“一种基于混合型激光雷达的大气边界层探测方法”,201910402935.5(已受理)
81、王冲,贾铭蛟,夏海云,岳斌,袁金龙,“一种基于相干测风激光雷达载噪比反演边界层高度的方法”,201910407004.4(已受理)
80、上官明佳,夏海云,薛向辉,窦贤康,“基于频率下转换的大气测温激光雷达以及大气测温方法”,201910171371.9(已受理)
79、上官明佳,夏海云,薛向辉,窦贤康,“基于宽谱光源的测风激光雷达”,201910256086.7(已受理)
78、岳斌,王冲,王乾坤,董晶晶,余超,夏海云,“一种基于无人机的机载激光雷达系统”,201811296917.5(已受理)
77、陶雷刚,夏海云,“一种基于单光子CCD的多波长臭氧激光雷达”, 201810800130.1(已受理)
76、夏海云,赵力杰,上官明佳,章振,窦贤康,“一种无扫描的单光子成像探测激光雷达”,201810167350.5(已受理)
75、 上官明佳,赵自豪,夏海云,“一种基于多关节机械臂的激光雷达”,201810135174.7(已受理)
74、上官明佳,赵自豪,夏海云,“基于激光雷达网的区域环境监测系统”,201810064878.X(已受理)
73、夏海云,周艳宗,上官明佳,王冲,窦贤康,“扫描式保偏全光纤法布里-珀罗干涉仪装置及系统”,201610867358.3(已受理)
72、夏海云,裘家伟,上官明佳,王冲,窦贤康,“基于时分复用的单探测器全光纤偏振激光雷达”,201610826594.0(已受理)
71、夏海云,周艳宗,上官明佳,王冲,窦贤康,“扫描式保偏全光纤法布里-珀罗干涉仪装置及系统”,201610867358.3(已受理)
70、魏方志,夏海云,章振,舒志峰,余赛芬,薛捷升,李盛浩,靳志远,夏秋炜, “一种识别烟羽及森林火灾预警的方法和系统”, 专利号 ZL 202210845025.6
69、Zhen Zhang, Mingjia Shangguan, Haiyun Xia, Xiankang Dou, Xianghui Xue, “Dispersion grating-based atmosphereic composition measurement laser radar”, Pub. No. US 2022/0026577 A1
68、王璐,夏海云,王冲,吴云斌,魏天问,“一种基于激光雷达风速数据的湍流参数反演方法”,专利号 ZL 201910129881.X
67、胡以华,杨星,夏海云,王冲,裘家伟等,“空中目标大气扰动变分辨率探测方法、存储介质和系统”,专利号 ZL 202011004999.9
66、胡以华,石亮,夏海云,王冲,裘家伟等,“一种基于相干激光探测空中尾涡的单/多目标判定方法”,专利号 ZL 202010853554.1
65、胡以华,谢卫,夏海云,裘家伟,王冲等,“一种基于相干激光雷达的静态隐身目标揭示方法”,专利号 ZL 202010860217.5
64、胡以华,杨星,夏海云,王冲,裘家伟等,“一种基于大气扰动相干激光探测的空中目标探测方法”,专利号 ZL 202010853553.7
63、徐帆江,夏海云,邓勇,彭佳琦,“一种基于尾流示踪的风场测量方法及系统”,专利号 ZL 201910664331.8
62、夏海云,余赛芬,岳斌,上官明佳,章振,窦贤康,“一种环境气体的扫描探测方法及激光雷达”,专利号 ZL 201910440252.9
61、夏海云,尚祥,岳斌,李蔓一,窦贤康,“大气污染物二维运动速度测量方法及装置”,专利号 ZL 201910197630.5
60、 王冲,吴云斌,夏海云,窦贤康,“基于GPU的相干激光雷达信号处理方法”,专利号 ZL 201810316127.2
59、夏海云,尚祥,窦贤康,上官明佳,王冲,裘家伟,李蔓一,“一种大气能见度的计算方法、装置、雷达及系统”,专利号 ZL 201711039605.1
58、夏海云,上官明佳,唐大为,窦贤康,“基于波长可调谐激光源的气体成分探测激光雷达”,专利号 ZL 201710651695.3
57、薛向辉,上官明佳,夏海云,窦贤康,唐贻环,“有效提取大气镍共振荧光信号的激光雷达系统”,专利号 ZL 201710651701.5
56、夏海云,王璐,王冲,上官明佳,窦贤康,“一种双频线性调频相干测风激光雷达”,专利号 ZL 201611130242.8
55、王冲,魏天问,上官明佳,裘家伟,夏海云,窦贤康,“一种光电探测器的非线性校准系统及方法”,专利号 ZL 201710962879.1
54、尚祥,夏海云,窦贤康,上官明佳,王冲,裘家伟,“气体颗粒物测量方法及装置”,专利号 ZL 201710685506.4
53、上官明佳,余超,夏海云,张军,窦贤康,潘建伟,“一种激光雷达信号的后脉冲修正方法及装置”,专利号 ZL 201710236542.2
52、夏海云,刘燕平,王冲,上官明佳,窦贤康,“一种低散射噪声的光学望远镜”,专利号 ZL 201610854786.2
51、夏海云,上官明佳,窦贤康,“一种多发单收望远镜阵列的全光纤激光雷达”,专利号 ZL 201611227866.1
50、夏海云,上官明佳,窦贤康,薛向辉,“基于大光敏面超导单光子探测器的高空大气探测激光雷达”,专利号 ZL 201610657540.6
49、夏海云,上官明佳,任佳恩,王冲,裘家伟,窦贤康,薛向辉,“基于不对称M-Z 干涉仪的全光纤测风激光雷达装置及方法”,专利号 ZL 201510456142.3
48、夏海云,周艳宗,上官明佳,窦贤康,薛向辉,“一种基于时分固定频移技术的FPI频率标定方法”,专利号 ZL 201610856552.1
47、夏海云,上官明佳,窦贤康,薛向辉,“基于超导单光子探测器的大气探测激光雷达”,专利号 ZL 201610348507.5
46、夏海云,赵力杰,上官明佳,窦贤康,“基于差分受激布里渊增益效应的直接测风激光雷达”,专利号 ZL 201610846712.4
45、上官明佳,夏海云,窦贤康,薛向辉,“基于偏振双边缘的单像素探测测风激光雷达”, 专利号 ZL 201610637866.2
44、夏海云,王冲,窦贤康,上官明佳,裘家伟,“一种同时探测大气风速和退偏振比的相干激光雷达”, 专利号 ZL 201610515441.4
43、舒志峰,窦贤康,夏海云,薛向辉,谷升阳,“多普勒测风激光雷达径向风速实时校准系统”, 专利号 ZL 201610291206.3
42、舒志峰,夏海云,窦贤康,薛向辉,“基于Fabry-Perot标准具的太阳辐射背景噪声抑制系统”, 专利号 ZL 201610291209.7
41、上官明佳,夏海云,窦贤康,薛向辉,“基于全光纤扫描F-P干涉仪的大动态风场探测激光雷达”, 专利号 ZL 201610346026.0
40、夏海云,上官明佳,窦贤康,薛向辉,“温度和应力同时探测的高光谱瑞利-布里渊光时域反射计”,专利号 ZL 201610346029.4
39、夏海云,周艳宗,上官明佳,王冲,窦贤康,“扫描式保偏全光纤法布里-珀罗干涉仪装置及系统”, 专利号 ZL 201610867358.3
38、夏海云, 上官明佳,窦贤康,王冲,薛向辉,“单腔F-P干涉仪单探测器实现的透反式双边缘测风激光雷达”, 专利号 ZL 201510563707.8
37、夏海云,上官明佳,窦贤康,薛向辉,“一种基于1μm~ 2μm 气体分子吸收谱线的全光纤测风激光雷达”, 专利号 ZL 201510535632.2
36、舒志峰,窦贤康,夏海云,薛向辉,谷升阳,“基于10.6μm激光变焦望远镜高压输电线垃圾清除系统”,专利号 ZL 201610286608.4
35、王冲,夏海云,上官明佳,窦贤康,裘家伟,“一种距离分辨率可调的相干测风激光雷达系统”,专利号 ZL 201510661310.2
34、夏海云,上官明佳,窦贤康,王冲,“一种基于时分复用的非扫描连续光相干测速激光雷达”,专利号 ZL 201510528695.5
33、夏海云,上官明佳,窦贤康,王璐,薛向辉,“一种基于单频连续光EOM调制的双频相干测风激光雷达”,专利号 ZL 201610127963.7
32、上官明佳,夏海云, 窦贤康,薛向辉,王冲,裘家伟,“一种基于双波长单接收通道的转动拉曼测温激光雷达”, 专利号 ZL 201510536323.7
31、夏海云,王冲,舒志峰,上官明佳,窦贤康,薛向辉,裘家伟,“高精度单电机传动激光雷达三维扫描仪”,专利号 ZL 201510454959.7
30、夏海云,上官明佳,窦贤康,王冲,裘家伟,舒志峰,薛向辉,“一种基于偏振复用的直接探测测风激光雷达”,专利号 ZL 201510172766.2
29、窦贤康,王冲,夏海云,薛向辉,上官明佳,裘家伟,“一种基于时分-波分复用的瑞利-钠激光雷达集成方法和系统”,专利号 ZL 201510160707.3
28、夏海云,贾晓东,窦贤康,王冲,上官明佳,裘家伟,“一种中频捷变的全光纤相干测风激光雷达系统”,专利号 ZL 201510080765.5
27、夏海云,张强,上官明佳,申屠国樑,王冲,潘建伟,窦贤康,夏秀秀,“基于高光谱分辨技术的光纤温度和应力传感装置及方法”,专利号 ZL 201510070444.7
26、张强,夏海云,潘建伟,窦贤康,申屠国樑,上官明佳,“基于上转换单光子探测器的近红外激光能见度仪”,专利号 ZL 201410697295.2
25、孙东松、窦贤康、张飞飞、舒志峰、夏海云、胡冬冬、韩於利,“一种高低空同时探测直接测风激光雷达系统中鉴频器实现方法”,专利号 ZL 201410306386.9
24、窦贤康,夏海云,王冲,上官明佳, 赵若灿,“一种双波长自适应光学修正波前畸变对直接探测测风激光雷达影响的装置及方法”,专利号 ZL 201410403959.X
23、夏海云,贾晓东,孙东松,窦贤康,舒志峰,“测量全光纤脉冲激光器ASE噪声的方法”,专利号 ZL 201410247921.8
22、夏海云,上官明佳,窦贤康,王冲,裘家伟,“一种基于保偏光纤形成双腔 F-P干涉仪的激光频移探测方法和设备”,专利号 ZL 201410370824.8
21、夏海云,上官明佳,窦贤康,孙东松,赵若灿,舒志峰,“一种基于 FP标准具的高光谱分辨大气瑞利测温方法”,专利号 ZL 201410172341.7
20、韩燕,窦贤康,孙东松,夏海云,舒志峰,薛向辉,陈廷娣,“分子散射测风激光雷达中激光频谱测量校准方法”,专利号 ZL 201310655715.6
19、赵若灿,窦贤康,上官明佳,韩於利,夏海云,孙东松,“一种扫描腔长时进行光学频率补偿的Fabry-Perot标准具标定系统和方法”,专利号 ZL 201310752533.0
18、夏海云,赵若灿,窦贤康,孙东松,上官明佳,舒志峰,韩於利,“一种全光纤直接探测测风激光雷达系统及其闭环控制方法”,专利号 ZL 201310451469.2
17、夏海云,赵若灿,窦贤康,孙东松,上官明佳,舒志峰,韩於利,“一种基于双工作波长的直接探测测风激光雷达系统及测风方法”,专利号 ZL 201310479786.5
16、夏海云,赵若灿,窦贤康,孙东松,上官明佳,舒志峰,韩於利,“一种直接探测多普勒激光雷达的快速校准系统和方法”,专利号 ZL 201310544932.8
15、窦贤康,韩於利,孙东松,夏海云,舒志峰,薛向辉,陈廷娣,“一种高精度多普勒激光雷达频率锁定系统”,专利号 ZL 201310460275.9
14、窦贤康,韩於利,孙东松,夏海云,舒志峰,薛向辉,陈廷娣,“一种瑞利多普勒激光雷达地面校准系统”,专利号 ZL 201210294809.0
13、夏海云,胡冬冬,孙东松,窦贤康,薛向辉,“一种光纤光栅实时光谱分析装置及方法”,专利号 ZL 201210315466.1
12、夏海云,胡冬冬,孙东松,窦贤康,薛向辉,“飞秒激光脉冲完全重建系统和方法”,专利号 ZL 201210315218.7
11、夏海云,窦贤康,孙东松,胡冬冬,薛向辉,陈廷娣,“一种基于种子注入式激光器的种子光进行激光频率锁定的装置”,专利号 ZL 201210071295.2
10、孙东松,王国成,夏海云,窦贤康,薛向辉,胡冬冬, “一种中高层大气风场反演方法”, 专利号 ZL 201110369049.0
9、窦贤康,孙东松,王晶晶,夏海云,舒志峰,胡冬冬,薛向辉,陈廷娣,“一种直接接触大气的防尘防霜光学望远镜系统”, 专利号 ZL 201110201302.1
8、孙东松,夏海云,张飞飞,窦贤康,舒志峰,薛向辉,陈廷娣,“激光雷达光学接收系统中光纤耦合的调试系统及方法”, 专利号 ZL 201110237900.4
7、窦贤康,韩燕,夏海云,孙东松,薛向辉,陈廷娣,“一种激光雷达中全光纤背景光压制和近场信号动态范围抑制技术的光学探测组件”, 专利号 ZL 201110230599.4
6、夏海云,杨远洪,牟宏谦,“适用于光纤分布式温度和应力传感装置的探测方法”, 专利号 ZL 200710175867.0
5、孙东松,周小林,沈法华,王邦新,夏海云,董晶晶,李颖颖,“基于经验模态分解的激光雷达信号处理方法”, 专利号 ZL 200710020400.9
4、杨远洪,夏海云,牟宏谦,“光纤分布式温度和应力传感装置”, 专利号 ZL 200710175868.5
3、杨远洪,夏海云,李莉,“基于连续波光纤激光器的调频相干激光雷达方法”, 专利号 ZL 200710003251.5
2、孙东松,钟志庆,王邦新,董晶晶,夏海云,周小林,刘东,“基于F-P标准具的多普勒测风激光雷达的结构及其探测方法”, 专利号 ZL 200610039797.1
1、孙东松,夏海云,董晶晶,周军,“便携式测风激光雷达多普勒校准方法”, 专利号 ZL 200610037782.1
团队成员Research Group
团队名称:智能遥感工程研究院
团队介绍:南京信息工程大学智能遥感工程研究院团队专注于光电遥感研究,聚焦单光子、相干、飞秒、超导、微波光子学等技术,面向地基、机载、星载平台研制新型智能遥感激光雷达,实现大气、海洋、陆地和目标的高分辨多参数探测,服务国防、气象、环保、地理测绘等重大需求。