培植及责任资格
1995年~1999年 青岛海洋大学电子工程系,电子学与信息系统专科,获理学学士学位,保送就读征询生;
1999年~2004年 中国海洋大学海洋遥感征询所,物理海洋学(海洋信息探伤)硕博连读,取得理学博士学位;
责任资格:
2004.7-2006.12,中国海洋大学信息科学与工程学院海洋遥感征询所 讲师;
2007.1-2010.9,中国海洋大学信息科学与工程学院 海洋遥感征询所/海洋时刻系 副教授;
2010.12于今,中国海洋大学信息科学与工程学院 海洋时刻系/海洋遥感征询所 教授;
2017.11于今,中国海洋大学信息科学与工程学院海洋时刻系教授、主任。
很很鲁很很鲁视在线视频主要学术兼职:
山东省高校海洋信息探伤与数字海洋时刻要点实践室主任;
欧洲空间局ADM-Aeolus激光测风卫星印证反演名堂成员;
中国宇航学会光电时刻专科委员会、中国光学学会环境光学专科委员会委员;山东省激光学会理事。2004.7于今 中国海洋大学 海洋大气激光探伤/老师 激光探伤方针的教学与科研
2013.10-2014.1 德国航空航天中心 激光雷达/高等征询员 星载多普勒激光雷达征询
1999-2004 中国海洋大学 物理海洋学(海洋信息探伤) 硕博连读征询生/多普勒激光雷达
1995-1999 中国海洋大学 电子学与信息系统专科 本科
征询方针
激光遥感时刻过甚海洋大气能源学和环境监测应用
主要从事大气海洋激光探伤时刻与应用征询。研制了平直探伤多普勒激光雷达、脉冲干系多普勒测风激光雷达、全天时夫琅和费光子计数激光雷达、水汽-云温存溶胶详细得志探伤激光雷达、超袖珍无东谈主机载脉冲干系激光雷达、多波长偏振夫琅和费暗线海洋激光雷达等多种激光雷达系统。发展了诈欺激光雷达探伤海气规模层结构和风场、水汽温存溶胶通量、飞机尾涡和风力发电机湍流尾迹特征征询等智力;应用于海洋大气规模层能源学结构、表层海洋光学剖面探伤、青藏高原云与水汽通量探伤、航空得志安全、风电场后果升迁等征询和应用。
科研名堂
在研主要名堂:
1. 国度要点研发探讨:海洋环境安全保险专项“海洋激光探伤算法与蛊卦”, 2016-2020,课题珍重东谈主。
2. 国度当然科学基金:基于激光遥感时刻的海气动量通量与大气湍流特征剖面征询,2020-2023,名堂珍重东谈主。
已完成主要名堂:
1. 国度863探讨要点名堂:长远海海洋能源环境不雅测系统关节时刻与集成示范-船载无东谈主机海洋不雅测系统,2014-2017,子课题珍重东谈主。
2. 国度863探讨:基于夫琅和费暗线的全天时激光雷达,2008-2011,名堂珍重东谈主。
3. 国度863探讨:新式微波调制激光多普勒探伤时刻,2007-2009,名堂副组长。
4. 国度当然科学基金:海洋大气规模层结构和三维风场的多普勒激光雷达不雅测征询,2014-2017,名堂珍重东谈主。
5. 国度当然科学基金(后生基金):大气三维风场的激光雷达探伤和多模范分析智力征询,2006-2008,名堂珍重东谈主。
6. 培植部新世纪优秀东谈主才守旧探讨:多普勒/高光谱分手率激光雷达,2012-2014,名堂珍重东谈主。
7. 中国得志局:水汽和云探伤激光雷达研制。
8. 原国度海洋局:多普勒激光雷达研制。
9. 飞机尾涡多普勒激光雷达不雅测时刻征询。
10. 飞机尾涡近大地效应多普勒激光雷达不雅测征询。
11. 机场风切变激光雷达不雅测时刻征询。
国外配合名堂:
1. 科技部与欧洲空间局“龙探讨4”名堂: Dragon 4 “Lidar Observations from ADM-Aeolus and EarthCARE-Validation, Study of Long-range Transport of Aerosol and Preparation of a Future Chinese CO2 Lidar Mission”, Leading Investigator
2. 欧洲空间局星载测风筹轨则标印证名堂,ESA ADM-AEOLUS Calibration/Validation, PI.
论文专利
A. Articles in journals
(1)Ge Chen, Junwu Tang, Chaofang Zhao, Songhua Wu, Fangjie Yu, Chunyong Ma, Yongsheng Xu, Weibiao Chen, Yunhua Zhang, Jie Liu, Lixin Wu, Concept Design of the “Guanlan” Science Mission: China’s Novel Contribution to Space Oceanography, Frontiers in Marine Science (2019), section Ocean Observation.
(2)Wu, Songhua, Xiaochun Zhai, and Bingyi Liu. Aircraft wake vortex and turbulence measurement under near ground effect Using Coherent Doppler lidar. Optics Express 27.2 (2019): 1142-1163.
(3)Guangyao Dai, Songhua Wu*, Xiaoquan Song,*, Liping Liu, Optical and Geometrical Properties of Cirrus Clouds over the Tibetan Plateau Measured by LiDAR and Radiosonde Sounding during the Summertime in 2014, Remote Sensing (2019), 11(3), 302: 1-17.
(4)Bin Yin, Songhua Wu*, Muguang Wang, Wenqi Liu, Beilei Wu, Haisu Li, Qichao Wang, High-sensitivity Refractive Index and Temperature Sensor Based on Cascaded Dual-wavelength Fiber Laser and SNHNS Interferometer, Optics Express, (SCI) (Accepted)
(5)Hongwei Zhang, Songhua Wu*, Qichao Wang, Bingyi Liu, Binyin, Xiaochun Zhai. (2018) Airport Low-level Wind Shear Lidar Observation at Beijing Airport Capital International Airport. Infrared Physics and Technology, 96 (2019): 113-122. (SCI)
(6)Hongwei Zhang, Songhua Wu*,Jiaping Yin, Qichao Wang. 干系测风激光雷达的机场低空风切变不雅测,红外与毫米波学报,2018, Vol. 37, No. 4. 468-476.(SCI)
(7)Dai, G., Althausen, D., Hofer, J., Engelmann, R., Seifert, P., Bühl, J., Mamouri, R.E., Wu, S., and Ansmann, A.: Calibration of Raman lidar water vapor profiles by means of AERONET photometer observations and GDAS meteorological data, Atmos. Meas. Tech., 11, 2735-2748, 2018. (SCI)
(8)Zhai, X., Wu, S., Liu, B., Song, X., and Yin, J.: Shipborne Wind Measurement and Motion-induced Error Correction of a Coherent Doppler Lidar over the Yellow Sea in 2014, Atmos. Meas. Tech., 11(3), 1313-1331, 2018. (SCI)
(9)Dai, Guangyao; Wu, Songhua; Song, Xiaoquan. (2018), Depolarization Ratio Profiles Calibration and Observations of Aerosol and Cloud in the Tibetan Plateau Based on Polarization Raman Lidar. Remote Sensing. 10(3), 378, 2018(SCI)
(10)Bin Yin, Muguang Wang, Songhua Wu, Yu Tang, Suchun Feng, Yue Wu, And Hongwei Zhang. (2017), Fiber ring laser based on MMF-PMFBG-MMF filter for three parameters sensing, Optics Express, 25, 30946-30955.
(11)B. Yin, M. Wang, S. Wu, Y. Tang, S. Feng and H. Zhang. (2017), High Sensitivity Axial Strain and Temperature Sensor Based on Dual-frequency Optoelectronic Oscillator Using PMFBG Fabry-Perot Filter, Optics Express, 25, 14106-14113.
(12)X. Zhai, S. Wu, and B. Liu. (2017), Doppler lidar investigation of wind turbine wake characteristics and atmospheric turbulence under different surface roughness, Optics Express 25, A515-A529.
(13)Xiaoquan Song, Xiaochun Zhai, Liping Liu, Songhua Wu. (2017), Lidar and Ceilometer Observations and Comparisons of Atmospheric Cloud Structure at Nagqu of Tibetan Plateau in 2014 Summer, Atmosphere, 8(1).
(14)廖希伟,宋小全,王东祥,张倩,戴光耀,吴松华,激光云高仪对那曲地区大气规模层高度的探伤分析,光子学报,45(5),0501001,2016
(15)张倩,宋小全,刘金涛,戴光耀,吴松华,激光云高仪探伤青藏高原夏令云底高度的征询,光电子.激光,27(4),406-412,2016
(16)Songhua Wu, Bingyi Liu, Jintao Liu, Xiaochun Zhai, Changzhong Feng, Guining Wang, Hongwei Zhang, Jiaping Yin, Xitao Wang, Rongzhong Li, and Daniel Gallacher. (2016), Wind turbine wake visualization and characteristics analysis by Doppler lidar, Optics Express 24, A762-A780.
(17)Wu, S., Dai, G., Song, X., Liu, B., & Liu, L. (2016). Observations of water vapor mixing ratio profile and flux in the Tibetan Plateau based on the lidar technique. Atmospheric Measurement Techniques, 9(3), 1399-1413.
(18)Songhua Wu, Xiaoquan Song, Bingyi Liu, Guangyao Dai, Jintao Liu, Kailin Zhang, Shengguang Qin, Dengxin Hua, Fei Gao, and Liping Liu. (2015) ,Mobile multi-wavelength polarization Raman lidar for water vapor, cloud and aerosol measurement, Optics Express 23, 33870-33892.
(19)LIU Liping, ZHENG Jiafeng, RUAN Zheng, CUI Zhehu, HU Zhiqun, WU Songhua, DAI Guangyao, WU Yahao, 2015: Comprehensive Radar Observations of Clouds and Precipitation over the Tibetan Plateau and Preliminary Analysis of Cloud Properties. J. Meteor. Res., 29(4): 546-561, doi: 10.1007/s13351-015-4208-6.
(20)刘黎平,郑佳锋,阮征,崔哲虎,胡志群,吴松华,戴光耀,吴亚昊. 2015. 2014年轻藏高原云和降水多种雷达详细不雅测锤真金不怕火及云特征初步分析按捺[J]. 得志学报, 73(4):635-647, doi:10.11676/qxxb2015.041
(21)Songhua Wu, Xiaoquan Song, Bingyi Liu. (2013), Fraunhofer Lidar Prototype in the Green Spectral Region for Atmospheric Boundary Layer Observations, Remote Sensing. 5, 11, 6079-6095.
(22)王东祥,宋小全,冯长中,王希涛,吴松华. 干系多普勒激光雷达不雅测渤黄海海洋大气规模层高度征询[J]. 光学学报, 2015, 35(s1): s101001. (Wang Dongxiang,Song Xiaoquan,Feng Changzhong,Wang Xitao,Wu Songhua. Coherent Doppler Lidar Observations of Marine Atmospheric Boundary Layer Height in the Bohai and Yellow Sea[J]. Acta Optica Sinica, 2015, 35(s1): s101001)
(23)王箫鹏,宋小全,陈玉宝,吴松华,邵楠,激光雷达不雅测北京春季云垂直结构及探空对比征询[J]. 光学学报, 2015,s201001.
(24)王箫鹏,宋小全,闫宝东,陈超,刘秉义,吴松华.激光雷达不雅测珠海市云底高度征询[J].光电子激光,2013,(11):2192~2197
(25)Yang Chen, Wu Songhua*, Zhishen Liu. (2011), Novel method to measure sensitivity of Doppler lidar using rotational Raman spectrum, Acta Optica Sinica, Vol.31, s100508-1-s100508-8.
(26)Wang Xitao, Liu Bingyi, Wu Songhua, Yao Qi, Li Zhigang. (2011), 1.55 μm All-Fiber Laser Heterodyne Detection and Data Analysis with High Measurement Accuracy of Velocity, Journal of Laser & Optoelectronics Progress, Vol. 48, No.6, 060301.
(27)Liu, Zhishen, Wang, Zhangjun, Wu, Songhua, Liu, Bingyi, Li, Zhigang, Zhang, Xin, Bi, Decang, Chen, Yubao, Li, Rongzhong, Yang, Yuqiang. (2010), Fine-measuring technique and application for sea surface wind by mobile Doppler wind lidar, Optical Engineering, Vol. 48, No.6, 066002-066002-7.
(28)WangZhangjun, Liu Zhishen, Liu Liping, Wu Songhua, Liu Bingyi, LiZhigang, Chu Xinzhao. (2010), Iodine-filter-based mobile Doppler lidar to make continuous and full azimuth scanned wind measurements: data acquisition and analysis system, data retrieval methods, and error analysis, Applied Optics, Vol. 49, No. 36, 6960-6978.
(29)Zhishen Liu, Zhangjun Wang, Songhua Wu, Bingyi Liu, Zhigang Li, Xin Zhang, Decang Bi, Yubao Chen, Rongzhong Li, and Yuqiang Yang. (2009): Fine-measuring technique and application for sea surface wind by mobile Doppler wind lidar, Opt. Eng. 48, 066002. 9.
(30)Liu Zhishen, Chen Yubao, Wu Songhua, Bi Decang, Li Rongzhong. (2008): Electronic simulator of atmospheric backscattered signals for high-spectral-resolution lidar Source, Optical Engineering, Vol. 47, No. 10, OCT 2008.
(31)Zhu JS, Chen YB. Yan ZA, Wu SH, Liu Zhishen. (2008): Relationship between the aerosol scattering ratio and temperature of atmosphere and the sensitivity of a Doppler wind lidar with iodine filter, Chinese Optics Letters, Vol. 6, No. 6, JUN 10 2008, 449-453.
(32)Guo Jin-Jia, Yan Zhao-Ai, Wu Song-Hua, Song Xiao-Quan, Liu, Zhi-Shen. (2008): Low level atmospheric temperature measurement with high spectral resolution lidar, Journal of Optoelectronics Laser (Language: Chinese), Vol. 19, No. 1, January, 2008, 66-69.
(33)Zhi-Shen Liu, Bing-Yi Liu, Song-Hua Wu, Zhi-Gang Li, and Zhang-Jun Wang. (2008): A high spatial and temporal resolution mobile incoherent Doppler lidar for sea surface wind measurements, Optics Letters, Vol. 33, No. 13, July 1, 1485-1487.
(34)Songhua Wu, Zhishen Liu, Bingyi Liu. (2007): Automatic laser frequency stabilization to iodine absorption line, Optics and Lasers in Engineering, Vol.45, 530-536.
(35)Zhishen Liu, Songhua Wu, Bingyi Liu. (2007), Seed injection and frequency locked Nd:YAG laser for direct-detection wind lidar, Optics and Laser Technology, Vol.39,2007, 541-545.
(36)Z.S. Liu, B.Y. Liu, Z.G. Li, Z. A. Yan, S. H. Wu, Z. B. Sun. (2007): Wind measurements with incoherent Doppler lidar based on iodine filters at night and day, Applied. Physics. B., Vol. 88, 327-335.
(37)Chiao-Yao She, Jia Yue, Zhao-Ai Yan, Johnathan W. Hair, Jin-Jia Guo, Song-Hua Wu, and Zhi-Shen Liu. (2007): Direct-detection Doppler wind measurements with a Cabannes–Mie lidar: A. Comparison between iodine vapor filter and Fabry–Perot interferometer methods, Applied Optics, Vol. 46, No. 20, 4434-4443.
(38)Chiao-Yao She, Jia Yue, Zhao-Ai Yan, Johnathan W. Hair, Jin-Jia Guo, Song-Hua Wu, and Zhi-Shen Liu. (2007): Direct-detection Doppler wind measurements with a Cabannes–Mie lidar: B. Impact of aerosol variation on iodine vapor filter methods, Applied Optics, Vol. 46, No. 20, 4444-4454.
(39)Songhua Wu, Zhishen Liu And Bingyi Liu. (2006): Dual-wavelength laser frequency locking for the direct-detect wind lidar, Journal of Modern Optics, Vol.53, No.3, 15 February, 333-341.
(40)Songhua Wu, Zhishen Liu, Bingyi Liu. (2006): Enhancement of lidar backscatters signal-to-noise ratio using empirical mode decomposition method, Optics Communications. Vol. 267, 2006, 137-144.
(41)Song-Hua Wu, Zhi-Shen Liu, Da-Peng Sun. (2003): Noise reduction in LOS wind velocity of Doppler Lidar using discrete wavelet analysis, Chinese Optics Letters, Vol. 1, No.12,722-725.
(42)WU Songhua, LIU Zhishen, LIU Jintao, HE Yan, SONG Xiaoquan. (2001): Compressing Dynamic Range of Wind Lidar Signals by Gate-control, Chinese Journal Of Lasers Vol.B10, No.6,December, 439-445.
B. Published contributions to academic conferences
(1)吴松华,刘秉义,刘淇,刘金涛,张凯临等,星载海洋激光雷达的科学时刻问题与“不雅澜号”海洋科学卫星概
述,2018年中国激光雷达时刻与应用学术会议,合肥,2018年10月(邀请敷陈)
(2)Songhua Wu, Xiaochun Zhai, Bingyi Liu, Characterization of Aircraft Dynamic WakeVortices and
Atmospheric Turbulence by Coherent Doppler Lidar, 19th Coherent Laser Radar Conference,
Okinawa,Japan, 18th-21st June, 2018.(Invited Talk)
(3)Xiaochun Zhai, Songhua Wu, Xiaoquan Song, Vertical Velocity Statistics and Turbulence
Characterization by Coherent Doppler Lidar during Typhoon MAWAR, 19th Coherent Laser Radar
Conference, Okinawa,Japan, 18th-21st June, 2018.
(4)Hongwei Zhang, Songhua Wu, Qichao Wang, Lidar Observation of Wind Shear along Glide Path at
Beijing Capital International Airport, 19th Coherent Laser Radar Conference, Okinawa,Japan, 18th-
21st June, 2018.
(5)Xiaoying Liu, Songhua Wu, Hongwei Zhang, Qichao Wang, Xiaochun Zhai, Comparisonof wind
measurements between virtual tower and VAD methods with different elevation angles, 19th
Coherent Laser Radar Conference, Okinawa,Japan, 18th-21st June, 2018.
(6)Qichao Wang, Songhua Wu, Jintao Liu, Kailin Zhang, Bingyi Liu, The Wind Observation over Sea Surface by UAV-borne Coherent Doppler Lidar, 19th Coherent Laser Radar Conference, Okinawa,Japan, 18th-21st June, 2018.
(7)Guangyao Dai, Songhua Wu, Water Vapor Mixing Ratio Measured by Lidar at the Tibetan Plateau and Qingdao, OSA Light, Energy and the Environment 2016 Congress, EM4A.3, 4–17 November 2016, Leipzig, Germany.
(8)Songhua Wu, Liu Bingyi, Jintao Liu, Zhai Xiaochun, Feng Changzhong and Song Xiaoquan, Wind Turbine Wake Characterizing using Coherent Wind Lidar, 18th Coherent Laser Radar Conference, Boulder, Colorado, June 26, 2016.
(9)X.Song, S.Wu, X.Zhai, B.Liu. Marine Atmospheric Boundary Layer Study Based on Coherent Wind Lidar Measurement, 18th Coherent Laser Radar Conference, Boulder, Colorado, June 26, 2016.
(10)S.Wu, B.Liu, X.Song, J. Liu. Validation and Calibration of ADM-Aeolus and EarthCARE using Doppler lidar and HSRL in China. ESA LIVING PLANET SYMPOSIUM 2016, May, 9, 2016.
(11)Songhua Wu, Guangyao Dai, Jintao Liu,Xiaoquan Song, Bingyi Liu, Observation of Wind Field and Vertical Water Vapor Flux within Atmospheric Boundary Layer of Tibetan Plateau, 2nd International workshop on Outbreaks of Asian Dust and Environmental Regime Shift, 9-14 August, 2015. Lanzhou, China.
(12)Xiaoquan Song, Songhua Wu, Guangyao Dai, Bingyi Liu, Jintao Liu, Kailin Zhang, Fei Gao, Dengxin Hua, Mobile Multi-wavelength Polarization Raman Lidar for Water Vapor, Cloud and Aerosol Measurement (WACAL), 2nd International workshop on Outbreaks of Asian Dust and Environmental Regime Shift, 9-14 August, 2015. Lanzhou, China.
(13)Guangyao Dai, Songhua Wu*, Xiaoquan Song, Xiwei Liao, CAL/VAL of Depolarization Ratio and Observation of Depolarization and Extinction Coefficient of Aerosol and Cloud in Tibetan Plateau Area by Lidar, 2nd International workshop on Outbreaks of Asian Dust and Environmental Regime Shift, 9-14 August, 2015. Lanzhou, China.
(14)Xiaochun Zhai, Songhua Wu*, Xiaoquan Song, Guangyao Dai, Research in Geometrical and Optical Characteristics of Cirrus over Qingdao Area Based on 2013-2015 Lidar Measurement, 2nd International workshop on Outbreaks of Asian Dust and Environmental Regime Shift, 9-14 August, 2015. Lanzhou, China.
(15)S. Wu, J. Yin, B. Liu, J. Liu, et. al., OBSERVATIONS OF WIND PROFILE OF MARINE ATMOSPHERE BOUNDARY LAYER BY SHIPBORNE COHERENT DOPPLER LIDAR, 27th International Laser Radar Conference, New York, June 2015.
(16)C. Feng, B. Liu, S. Wu, J. Liu, Gluing Lidar Signals Detected in Analog-to-Digital and Photon Counting Modes, 27th International Laser Radar Conference, New York, June 2015.
(17)S.Wu, J. Yin, R.Li, et.al., OBSERVATIONS AND ANALYSIS OF TURBULENT WAKE OF WIND TURBINE BY COHERENT DOPPLER LIDAR, 27th International Laser Radar Conference, New York, June 2015.
(18)吴松华,尹嘉萍,刘秉义,宋小全等,船载干系多普勒激光雷达海气规模层风廓线探伤,2015中国光学学会年会,成王人,2015年8月。(邀请敷陈)
(19)Song-Hua Wu, Jiaping Yin, Bingyi Liu, Jintao Liu, Rongzhong Li, Xitao Wang, Changzhong Feng, Kailin Zhang: Coherent Doppler lidar to investigate wind turbulence. SPIE Newsroom; 12/2014
(20)Guangyao Dai, Songhua Wu, Xiaoquan Song, Shengguang Qin, Bingyi Liu, Jintao Liu, Kailin Zhang, Wei Zhang: Research in depolarization of particles in Tibetan Plateau and coastal area by lidar. Proc. SPIE 9262, Lidar Remote Sensing for Environmental Monitoring XIV; 10/2014
(21)Song-Hua Wu, Jiaping Yin, Bingyi Liu, Jintao Liu, Rongzhong Li, Xitao Wang, Changzhong Feng, Quanfeng Zhuang, Kailin Zhang: Characterization of Turbulent Wake of Wind Turbine by Coherent Doppler Lidar. Proc. SPIE 9262, Lidar Remote Sensing for Environmental Monitoring XIV; 10/2014
(22)Oliver Reitebuch, Uwe Marksteiner, Benjamin Witschas, Christian Lemmerz, Songhua Wu: Studying Atmospheric Dynamics – Validation of ADM-Aeolus Wind Lidar Observations. Dragon 3 Mid Term Results Symposium; 05/2014
(23)B.-Y. Liu, Z.-S. Liu, X.-Q. Song, S.-H. Wu, D.-C. Bi, X.-T. Wang, Q.-W. Yin, O. Reitebuch: Modifications and Moving Measurements of the Mobile Doppler Lidar. ESA-MOST DRAGON 2 Mid Term Results Symposium; 05/2010
(24)Songhua Wu, Shengguang Qin, Xiaoquan Song, Bingyi Liu, Wei Zhang, Lei Jin, Huaming Hou. (2012), Fraunhofer lidar in the green band for daytime photon counting, 26th International Ladar Radar Conference, S1O-10, June, Porto Heli, Greece.(Oral Presentation)
(25)Songhua Wu. (2011), Daytime photon counting lidar prototype in the Fraunhofer lines, Proc. SPIE 8192, dx.doi.org/10.1117/12.901057.(Invited Talk)
(26)Songhua Wu, Shengguang Qin, Bingyi Liu and Yang Chen. (2011), Assessment of a three-frequency alternate pulse Doppler wind lidar, Proc. SPIE 8192; dx.doi.org/10.1117/12.901004.
(27)Songhua Wu, Yang Chen, Zhilong Song, Shengguang Qin, Lei Jin and Wei Zhang. (2011), Doppler wind lidar sensitivity and aerosol backscatter ratio measurement by combined Raman-Mie-Rayleigh scattering, Proc. SPIE 8192, dx.doi.org/10.1117/12.900967.
(28)Songhua Wu, Zhishen Liu, Huang Li, Zhangjun Wang, Decang Bi, Rongzhong Li, Bingyi Liu1, Zhigang Li. (2010), Doppler Wind Lidar Measurements Of The Land And Sea Breeze In Qingdao Coastal Area, 25th International Laser Radar Conference, S2P-07, July, 2010, St. Petersburg, Russia.
(29)Zhishen Liu, Songhua Wu, Huang Li, Zhangjun Wang, Decang Bi, Rongzhong Li, Bingyi Liu1, Zhigang Li. (2010), Operational Observations Of Three Dimensional Wind With Incoherent Doppler Wind Lidar, 25th International Laser Radar Conference, S2O-07, July, 2010, St. Petersburg, Russia. (Oral presentation)
(30)Zhishen Liu, Songhua Wu, Bingyi Liu, Zhigang Li, Zhangjun Wang. (2008): Direct Detection Wind Lidar Development for Meteorological Applications at Qingdao, 24th International Laser Radar Conference, S02P-14, June, 2008, Boulder USA.
(31)Songhua Wu, Zhishen Liu, Bingyi Liu. (2006): Noise Reduction in Lidar Signal by Empirical Mode Decomposition, 23rd International Laser Radar Conference, July 2006, Nara Japan, Oral presentation 2O-15, 71-74. (Oral presentation)
(32)Na Zhang, Songhua Wu, Ruibin Wang, Zhigang Li, Bingyi Liu, Zhishen Liu. (2006): The Signal Processing By Empirical Mode Decomposition For Incoherent Doppler Wind Lidar Based On Iodine Filter, 23rd International Laser Radar Conference, July 2006, Nara Japan, 271-274.
(33)Jia Yue, Chiao-Yao She, John W. Hair, Jin-Jia Quo, Song-Hua Wu, Zhao-Ai Yan, Zhi-Shen Liu. (2006): A comparative study on Fabry-Perot interferometer and iodine vapor filter for direct detection Doppler wind measurements with a Cabanne-Mie lidar, 23rd International Laser Radar Conference, 23rd ILRC.
(34)Song-Hua Wu, Da-Peng Sun, Zhi-Shen Liu. (2003): Frequency-locking of diode-pumped Nd:YAG lasers with the digital PID method at the 532nm iodine lines in incoherent wind lidar, SPIE, Vol. 4893.
C. Patents
(35)Doppler lidar technology for multiple meteorological parameters measurements, patent No. 201010154532.2.
(36)Real-time calibration method for High Spectral Resolution lidar, patent No. 200910231371.X.
(37)Hybrid microwave lidar for wind measurement, patent No. 200610069120.2.
(38)New type High Spectral Resolution Lidar using Fraunhofer spectrum, patent No. 200710114987.X.
征询生招生条目
对未知限制抱有酷好心,具有较好的数理基础和发轫才能,有利思开展光学、光电子、电子学、信号处分在大气和海洋遥感中的应用时刻征询的学生。