韓舸,博士,珞珈青年學者,武漢大學遙感信息工程學院副教授。
基本介紹
- 中文名:韓舸
- 學位/學歷:博士
- 職業:教師
- 專業方向:溫室氣體探測雷射雷達研製、碳循環及全球變化研究
- 任職院校:武漢大學遙感信息工程學院
個人經歷,研究方向,主講課程,學術成果,
個人經歷
1、2018年1月 至今 副研究員/副教授 武漢大學遙感信息工程學院
2、2015年7月-2017年12月 講師 武漢大學國際軟體學院
3、2015年7月-2018年6月 軟體工程 博士後 武漢大學計算機學院
4、2012年9月-2015年6月 攝影測量與遙感 博士 武漢大學測繪遙感信息工程國家重點實驗室
5、2005年9月-2012年6月 地球探測與信息技術 學士/碩士 中國地質大學(武漢)地球物理與空間信息學院
研究方向
1、溫室氣體探測雷射雷達性能分析、設備研製、數據反演算法開發;
2、利用星地協同遙感和大氣模式的多尺度碳通量反演及點源排放監測;
3、深度學習在無人機遙感中的套用。
主講課程
講授全英文課程《database system》、《big data analysis》和中文課程《空間信息與感測器網路》。
學術成果
近年來,發表學術論文30篇,其中18篇被SCI檢索,擔任Remote Sensing,Optics Express,Optics Communications,Environmental Science-Processes & Impacts及IET Generation, Transmission & Distribution等國際SCI期刊審稿人。作為項目負責人主持科研項目、課題7項,同時參與科技部重點研發計畫和基金委國家重大科研儀器設備研製專項。
近年來,主要從事溫室氣體探測雷射雷達的研製及其在大氣遙感中的套用。代表性成果被英國皇家化學會會刊Chemistry World頭條報導,並評價為首次獲得了鞭炮燃放引起的大氣污染在垂直方向上的高時空分辨分布。同時開展了星載溫室氣體雷射探測衛星的硬體參數最佳化、反演算法設計和綜合性能評估工作,本領域權威專家德國DLR Gerhard Ehret研究員將該工作與NASA、ESA和JAXA的相關工作並列,稱為目前領先的四大溫室氣體雷射探測衛星設計與性能分析框架之一。
主持項目:
1,國家自然科學基金青年科學基金項目“基於星載差分吸收雷射雷達的城市地區CO2濃度反演方法研究”
2,中國博士後科學基金面上項目“星載CO2-IPDA的陸地地區大氣CO2柱濃度反演方法研究”
3, 中國博士後科學基金特別資助項目“利用地基CO2-DIAL的中尺度CO2通量測量方法研究”
4,國家生態環境部課題“星載雷射雷達的大氣要素反演關鍵技術研究”(2016-042)
5,國家氣象局課題“大氣環境星星載雷射雷達大氣CO2產品反演軟體開發”
6,上海衛星工程研究所“星載CO2雷射雷達仿真技術研究”
7,中央高校基本科研業務費“星載差分吸收雷射雷達的大氣CO2柱濃度反演方法研究”(2042016kf0032).
參與項目:
1,國家自然科學基金重大科學儀器設備開發專項第六子課題“二氧化碳差分吸收雷射雷達”
2,科技部重點研發計畫“全天時主動式高光譜雷射雷達成像技術”
3,武漢市重大科技攻關專項(2013-2015)“武漢市大氣灰霾成因與來源研究”第三課題“武漢地區灰霾影響因素”
論文列表:
[1] Ge Han, Hao Xu , Wei Gong , Jiqiao Liu, Juan Du, Xin Ma and Ailin Liang. Feasibility Study on Measuring Atmospheric CO2 in Urban Areas By Using Spaceborne CO2-IPDA LIDAR. Remote Sensing, 2018, 10(7), 985 (SCI 中科院二區)
[2]G. Han, X. H. Cui, A. L. Liang, X. Ma, T. Zhang, and W. Gong, “A CO2 Profile Retrieving Method Based on Chebyshev Fitting for Ground-Based DIAL,” Ieee Transactions on Geoscience And Remote Sensing, vol. 55, no. 11, pp. 6099-6110, Nov, 2017. (SCI 中科院二區)
[3]G. Han, X. Ma, A. L. Liang, T. H. Zhang, Y. N. Zhao, M. Zhang, and W. Gong, “Performance Evaluation for China's Planned CO2-IPDA,” Remote Sensing, vol. 9, no. 8, Aug, 2017. (SCI 中科院二區)
[4]G. Han, W. Gong, H. Lin, X. Ma, and Z. C. Xiang, “Study on Influences of Atmospheric Factors on Vertical CO2 Profile Retrieving From Ground-Based DIAL at 1.6 mu m,” Ieee Transactions on Geoscience And Remote Sensing, vol. 53, no. 6, pp. 3221-3234, Jun, 2015. (SCI 中科院二區)
[5]G. Han, H. Xu, W. Gong, X. Ma, and A. L. Liang, “Simulations of a multi-wavelength differential absorption lidar method for CO2 measurement,” Applied Optics, vol. 56, no. 30, pp. 8532-8540, Oct, 2017. (SCI 中科院三區)
[6]G. Han, W. Gong, J. H. Quan, J. Li, and M. Zhang, “Spatial and temporal distributions of contaminants emitted because of Chinese New Year's Eve celebrations in Wuhan,” Environmental Science-Processes & Impacts, vol. 16, no. 4, pp. 916-923, 2014. (SCI 中科院三區)
[7]G. Han, W. Gong, H. Lin, X. Ma, and C. Z. Xiang, “On-line wavelength calibration of pulsed laser for CO2 DIAL sensing,” Applied Physics B-Lasers And Optics, vol. 117, no. 4, pp. 1041-1053, Dec, 2014. (SCI 中科院三區)
[8]G. Han, W. Gong, X. Ma, C. Z. Xiang, A. L. Liang, and Y. X. Zheng, “A ground-based differential absorption lidar for atmospheric vertical CO2 profiling,” Acta Physica Sinica, vol. 64, no. 24, Dec, 2015. (SCI 中科院四區)
[9]A. L. Liang, W. Gong, G. Han*, and C. Z. Xiang, “Comparison of Satellite-Observed XCO2 from GOSAT, OCO-2, and Ground-Based TCCON,” Remote Sensing, vol. 9, no. 10, Oct, 2017. (SCI 中科院二區)
[10]L. Ruan, G. Han*, Z. M. Zhu, M. Zhang, and W. Gong, “Spatial and Temporal Characteristics of Insulator Contaminations Revealed by Daily Observations of Equivalent Salt Deposit Density,” Sensors, vol. 15, no. 2, pp. 3023-3040, Feb, 2015. (SCI 中科院三區,共同第一作者)
[11]W. Gong, G. Han*, X. Ma, and H. Lin, “Multi-points scanning method for wavelength locking in CO2 differential absorption lidar,” Optics Communications, vol. 305, pp. 180-184, Sep, 2013. (SCI 中科院三區)
[12]Z. Qi, T. Zhang, G. Han*, D. C. Li, X. Ma, and W. Gong, “A nonlinear merging method of analog and photon signals for CO2 detection in lower altitudes using differential absorption lidar,” Optics Communications, vol. 388, pp. 68-76, Apr, 2017. (SCI 中科院三區)
[13]A. L. Liang, G. Han, W. Gong, J. Yang, and C. Z. Xiang, “Comparison of Global X-CO2 Concentrations From OCO-2 With TCCON Data in Terms of Latitude Zones,” Ieee Journal Of Selected Topics In Applied Earth Observations And Remote Sensing, vol. 10, no. 6, pp. 2491-2498, Jun, 2017. (SCI 中科院二區)
[14]W. Gong, A. L. Liang, G. Han, X. Ma, and C. Z. Xiang, “Sensitivity of on-line wavelength during retrieval of atmospheric CO2 vertical profile,” Photonics Research, vol. 3, no. 4, pp. 146-152, Aug, 2015. (SCI 中科院一區)
[15]W. Gong, X. Ma, G. Han, C. Z. Xiang, A. L. Liang, and W. D. Fu, “Method for wavelength stabilization of pulsed difference frequency laser at 1572 nm for CO2 detection lidar,” Optics Express, vol. 23, no. 5, pp. 6151-6170, Mar, 2015. (SCI 中科院二區)
[16]W. Gong, M. Zhang, G. Han, X. Ma, and Z. M. Zhu, “An Investigation of Aerosol Scattering and Absorption Properties in Wuhan, Central China,” Atmosphere, vol. 6, no. 4, pp. 503-520, Apr, 2015. (SCI 中科院四區)
[17]C. Z. Xiang, X. Ma, A. L. Liang, G. Han, W. Gong, and F. Yan, “Feasibility Study of Multi-Wavelength Differential Absorption LIDAR for CO2 Monitoring,” Atmosphere, vol. 7, no. 7, Jul, 2016. (SCI 中科院四區)
[18]X. Ma, W. Gong, Y. Y. Ma, D. W. Fu, G. Han, and C. Z. Xiang, “Research on the frequency stabilization of pulsed differential absorbing lidar for CO2 detection based on matching algorithm,” Acta Physica Sinica, vol. 64, no. 15, Aug, 2015. (SCI 中科院四區)
[19]G. Han, W. Gong, F. Yan, A. L. Liang, H. Lin, "AN IMPROVED RETRIEVING METHOD OF VERTICAL CO2 CONCENTRATIONS PROFILE FOR DIAL," 2014 Ieee International Geoscience And Remote Sensing Symposium, IEEE International Symposium on Geoscience and Remote Sensing IGARSS, 2014. (EI會議)
[20]G. Han, W. Gong, X. H. Cui, M. Zhang, and J. Chen, "ESTIMATION OF INSULATOR CONTAMINATIONS BY MEANS OF REMOTE SENSING TECHNIQUE," Xxiii Isprs Congress, Commission Viii, International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences, pp. 73-77, 2016. (EI會議)
[21]G. Han, M. Zhang, X. H. Cui, A. L. Liang, W. Gong, and Ieee, "A GROUND-BASED DIFFERENTIAL ABSORPTION LIDAR FOR ATMOSPERIC CO2 DETECTION," 2016 Ieee International Geoscience And Remote Sensing Symposium, IEEE International Symposium on Geoscience and Remote Sensing IGARSS, pp. 4557-4560, 2016. (EI會議)
[22]M. Zhang, G. Han, J. Sun, W. Gong, "TWO-WAVELENGTH DEPOLARIZATION MIE LIDAR FOR TROPOSPHERIC AEROSOL MEASUREMENTS," 2016 Ieee International Geoscience And Remote Sensing Symposium, IEEE International Symposium on Geoscience and Remote Sensing IGARSS, pp. 4051-4054, 2016. (EI會議)
[23]C. Z. Xiang, X. Ma, G. Han, A. L. Liang, and W. Gong, "ON-LINE WAVELENGTH CALIBRATION OF PULSED LASER FOR CO2 DIFFERENTIAL ABSORPTION LIDAR," XXIII ISPRS Congress, Commission I, International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences B1, L., pp. 141-146, 2016. (EI會議)
[24]A. L. Liang, W. Gong and G. Han, "OCO-2 XCO2 VALIDATION USING TCCON DATA," 2016 Ieee International Geoscience And Remote Sensing Symposium, IEEE International Symposium on Geoscience and Remote Sensing IGARSS, pp. 830-833, 2016. (EI會議)
[25]M. Zhang, W. Gong, X. Ma, G. Han, "OBSERVATION OF ATMOSPHERIC AEROSOL SCATTERING COEFFICIENT, ABSORPTION COEFFICIENT, AND SSA BASED ON NEPHELOMETER AND AETHALOMETER MEASUREMENTS IN WUHAN CITY, CENTRAL CHINA," 2015 Ieee International Geoscience And Remote Sensing Symposium, IEEE International Symposium on Geoscience and Remote Sensing IGARSS, pp. 2226-2229, 2015. (EI會議)
[26]牛瑞卿, and 韓舸*, “利用數據挖掘的滑坡監測數據處理流程,” 武漢大學學報(信息科學版), no. 07, pp. 869-872+881, 2012. (EI期刊)
[27]韓舸, 龔威, 吳婷, and 趙艷南, “利用粗糙集的滑坡分階段位移預測方法——以白家包滑坡為例,”吉林大學學報(地球科學版), no. 03, pp. 925-931, 2014. (CSCD)
[28]韓舸, and 牛瑞卿, “利用SIFT和靜態小波變換的遙感影像配準方法,” 測繪科學, no. 05, pp. 61-64, 2012. (CSCD)
[29] 朱忠敏,韓舸,龔威,崔珍珍 and張淼, “武漢市空氣污染物長期變化規律研究,”華中師範大學學報(自然科學版),no. 02, pp. 280-286, 2015. (CSCD)
[30]熊宇, 陳孝明, 阮羚, 黃俊傑, 張天浩, 朱忠敏, and 韓舸, “衛星AOD數據驅動的區域電力污穢等級評估方法,” 測繪通報, no. 08, pp. 39-43, 2016. (CSCD)