Leese J A. Remote sensing applications in the meteorology and operational hydrology programmes of WMO[J]. Advances in Space Research, 1987, 7(3): 49-57.
[2]
Chen Shupeng, Zeng Shan. Earth system science and Geo-informatics[J]. Geographical Research, 1996, 15(2): 1-11. [陈述彭,曾杉. 地球系统科学与地球信息科学[J]. 地理研究,1996,15(2):1-11.]
[3]
Chen Shupeng, Shao Yubin. Global change and Geo-information System[J]. Acta Geographica Sinca, 1996, 51(Suppl.): 15-25. [陈述彭,邵宇宾. 全球变化研究与地理信息系统[J]. 地理学报,1996,51(增刊):15-25.]
[4]
Gan Zhaoping. Remote sensing technology creates Digital Earth—An interview with Tong Qingxi, Academician of Chinese Academy of Sciences[J]. Science Technology Innovations and Brands, 2013, 8: 10-13. [甘招萍. 遥感技术造就数字地球——访中国科学院院士童庆禧[J]. 科技创新与品牌,2013,8:10-13.]
[5]
Feng Yun, Gao Feng, Sun Chengquan. Application of remote sensing technology in studies of global change[J]. Remote Sensing Technology and Application, 2001, 16(4): 237-241. [冯筠,高峰,孙成权. 遥感技术在全球变化研究中的应用[J]. 遥感技术与应用,2001,16(4):237-241.]
[6]
Wang Changyao, Bu Heaosier, Di Xiaochun. Application of remote sensing to global environment change research in China[J]. Advances in Earth Science,1998, 13(3): 278-284. [王长耀,布和敖斯尔,狄小春. 遥感技术在全球环境变化研究中的作用[J]. 地球科学进展,1998,13(3):278-284.]
[7]
Hicke J A, Asner G P, Randerson J T, et al. Satellite-derived increases in net primary productivity across North America[J]. Geophysical Research Letters, 2002, 29: 1 982-1 998.
[8]
Murphy R J, Underwood A J, Tolhurst T J, et al. Field-based remote sensing for experimental intertidal ecology: Case studies using hyperspatial and hyperspectral data for New South Wales (Australia)[J]. Remote Sensing of Environment, 2008, 112: 3 353-3 365.
[9]
Harris A, Bryant R G. A multi-scale remote sensing approach for monitoring northern peat land hydrology: Present possibilities and future challenges[J]. Journal of Environmental Management, 2009, 90: 2 178-2 188.
[10]
White M A, de Beurs K, Didan K, et al. Intercomparison, interpretation and assessment of spring phenology in North America estimated from remote sensing for 1982 to 2006[J]. Global Change Biology, 2009, 15: 2 335-2 359.
[11]
Wu Bingfang, Meng Jihua, Li Qiangzi, et al. Latest development of “CropWatch”—An global crop monitoring system with remote sensing[J]. Advances in Earth Science, 2010, 25(10): 1 013-1 022. [吴炳方,蒙继华,李强子,等. “全球农情遥感速报系统(CropWatch)”新进展[J]. 地球科学进展,2010,25(10):1 013-1 022.]
[12]
Wu Bingfang, Lu Shanlong. Watershed remote sensing: Methodology and a paradigm in Hai Basin[J]. Journal of Remote Sensing, 2011, 15(2): 201-223. [吴炳方,卢善龙. 流域遥感方法与实践[J]. 遥感学报,2011,15(2):201-223.]
[13]
Tan Qulin, Hu Jiping. The use of imaging radars for ecological applications[J]. Remote Sensing Technology and Application, 2005, 20(3): 375-380. [谭衢霖,胡吉平. 成像雷达遥感的生态学应用[J]. 遥感技术与应用,2005,20(3):375-380.]
[14]
Yue Yuemin, Wang Kelin, Zhang Bing, et al. Applications of hyperspectral remote sensing in ecosystem: A review[J]. Remote Sensing Technology and Application, 2008, 23(4): 471-478. [岳跃民,王克林,张兵,等. 高光谱遥感在生态系统研究中的应用进展[J].遥感技术与应用,2008,23(4):471-478.]
[15]
Lu Jingxuan. Review on 30 years’ achievement of remote sensing application in water resources[J]. Journal of China Institute of Water Resources and Hydropower Research, 2008, 6(3): 224-230. [路京选. 水利遥感应用技术研究进展回顾与展望[J]. 中国水利水电科学研究院学报,2008,6(3):224-230.]
[16]
Li Jiren. Remote sensing applications in water conservancy field[J]. Satellite Application,2012, 1: 61-64.
[17]
. 卫星应用,2012,1:61-64.]
[18]
Liang Hongyou, Gu Xingfa, Yu Tao. Analysis of the applications and demands of civil aeronautics remote sensing in coal industry of China[J]. Coal Science and Technology, 2007, 35(4): 104-107. [梁洪有,顾行发,余涛. 民用航天遥感在我国煤炭行业的应用与需求分析[J]. 煤炭科学技术,2007,35(4):104-107.]
[19]
Sahoo A K, Pan M, Troy T J, et al. Reconciling the global terrestrial water budget using satellite remote sensing[J]. Remote Sensing of Environment, 2011, 115: 1 850-1 865.
[20]
Brown M E, Beurs K M, Marshall M. Global phenological response to climate change in crop areas using satellite remote sensing of vegetation, humidity and temperature over 26 years[J]. Remote Sensing of Environment, 2012, 126: 174-183.
[21]
Aurin D A, Dierssen H M. Advantages and limitations of ocean color remote sensing in CDOM-dominated, mineral-rich coastal and estuarine waters[J]. Remote Sensing of Environment, 2012, 125: 181-197.
[22]
Chen J, Cui T, Ishizaka J, et al. A neural network model for remote sensing of diffuse attenuation coefficient in global oceanic and coastal waters: Exemplifying the applicability of the model to the coastal regions in Eastern China Seas[J]. Remote Sensing of Environment, 2014, 148: 168-177.
[23]
Luft L, Neumann C, Freude M, et al. Hyperspectral modeling of ecological indicators—A new approach for monitoring former military training areas[J]. Ecological Indicators, 2014, 46: 264-285.
[24]
Zhang Wanzeng. The current situation and development trend of the space-borne military remote sensing technology and equipment[J]. Aerospace China, 1992, 11: 20-22. [张万增. 航天军事遥感技术和设备的现状及发展趋势[J]. 中国航天,1992,11:20-22.]
[25]
Chen Shengzhe, Chen Biao. Application of infrared technology in military[J]. Optical Technique, 2006, 32(Suppl.): 581-586. [陈胜哲,陈彪. 红外技术在军事上的应用[J]. 光学技术,2006,32(增刊):581-586.]
[26]
Li Xin. The major research directions of American geospatial intelligence (GEOINT)[J]. Abstracts of Surveying and Mapping, 2008, 1: 1-5. [李欣. 美国地理空间情报(GEOINT)未来重点研究方向[J]. 测绘文摘,2008,1:1-5.]
[27]
Sun Bijiao, Li Xin. A survey of the international cooperation of American National Geospatial-Intelligence Agency (NGA)[J]. Geomatics Technology and Equipment,2011, 13(4): 51-54. [孙碧娇,李欣. 美国国家地理空间情报局(NGA)国际合作概况及启示[J]. 测绘技术装备,2011,13(4):51-54.]
[28]
John P H. National strategy for civil Earth observations[EB/OL]. Wahington DC: Executive Office of the President and National Science and Technology Council, 2013[2014-11-20]. http:∥www.docin.com/p-716248923.html.
[29]
Donlon C, Berruti B, Buongiorno A, et al. The Global Monitoring for Environment and Security (GMES) Sentinel-3 mission[J]. Remote Sensing of Environment, 2012, 120: 37-57.
[30]
Drusch M, Bello U D, Carlier S, et al. Sentinel-2: ESA’s optical high-resolution mission for GMES operational services[J]. Remote Sensing of Environment, 2012, 120: 25-36.
[31]
Giannopapa C. Securing Galileo’s and GMES’s place in European policy[J]. Space Policy, 2012, 28: 270-282.
[32]
Torres R, Snoeij P, Geudtner D, et al. GMES Sentinel-1 mission[J].Remote Sensing of Environment, 2012, 120: 9-24.
[33]
Li Deren, Tong Qingxi, Li Rongxing, et al. Current issues in high-resolution Earth observation technology[J]. Science in China (Series D), 2012, 42(6): 805-813. [李德仁,童庆禧,李荣兴,等. 高分辨率对地观测的若干前沿科学问题[J]. 中国科学:D辑,2012, 42(6):805-813.]
[34]
Ge Bangjun, Qin Ying. High resolution earth observation system and its applications[J]. Satellite Application, 2012, 5: 24-28. [葛榜军,靳颖. 高分辨率对地观测系统及应用[J]. 卫星应用,2012,5:24-28.]
[35]
Chen Yiyu. Future research trends of IGBP[J]. Advances in Earth Science, 2001, 16(1): 15-17. [陈宜瑜. IGBP未来发展方向[J]. 地球科学进展,2001,16(1):15-17.]
[36]
Guo Huadong, Wang Lizhe, Chen Fang, et al. Scientific big data and digital Earth[J]. Chinese Science Bulletin, 2014, 59: 1 047-1 054. [郭华东,王力哲,陈方,等. 科学大数据与数字地球[J]. 科学通报,2014,59:1 047-1 054.]
[37]
Chen Jun. The Speech on the Eighth Geographic Academic Forum for Graduate Students over Beijing District[EB/OL].
Wu Guoxiong, Lin Hai, Zou Xiaolei, et al. Research on global climate change and scientific data[J]. Advances in Earth Sciences, 2014, 29(1): 15-22. [吴国雄,林海,邹晓蕾,等. 全球气候变化研究与科学数据[J]. 地球科学进展,2014,29(1):15-22.]
[40]
Tatem A J, Lewis H G, Atkinson P M, et al. Increasing the spatial resolution of agricultural land cover maps using a Hopefield neural network[J]. International Journal of Geographical Information Science, 2003, 17: 647-672.
[41]
Townshend J R, Masek J G, Huang C Q, et al. Global characterization and monitoring of forest cover using Landsat data: Opportunities and challenges[J]. International Journal of Digital Earth, 2012, 5(5): 373-397.
[42]
Gong P, Wang J, Yu L, et al. Finer resolution observation and monitoring of global land cover: First mapping results with Landsat TM and ETM+ data[J]. International Journal of Remote Sensing, 2013, 34(7): 2 607-2 654.
[43]
Wu Bingfang, Yuan Quanzhi, Yan Changzhen, et al. Land cover changes of China from 2000 to 2010[J]. Quaternary Sciences,2014, 34(4): 723-731. [吴炳方,苑全治,颜长珍,等. 21世纪前十年的中国土地覆盖变化[J]. 第四纪研究,2014,34(4):723-731.]
[44]
Wu Bingfang, Zhang Lei, Yan Changzhen, et al. 2010 China land cover mapping based on HJ-1 satellite data and field Data[J]. Acta Ecologica Sinica, 2015,35(13),doi:10.5846/stxb201310122452"> doi:10.5846/stxb201310122452. [吴炳方,张磊,颜长珍,等. 2010年中国土地覆盖监测的方法与特色[J]. 生态学报,2015,35(13),doi:10.5846/stxb201310122452"> doi:10.5846/stxb201310122452.]
[45]
Mu Q, Zhao M, Running S W. Improvements to a MODIS global terrestrial evapotranspiration algorithm[J]. Remote Sensing of Environment, 2011, 115: 1 781-1 800.
[46]
Giglio L, Schroeder W. A global feasibility assessment of the bi-spectral fire temperature and area retrieval using MODIS data[J]. Remote Sensing of Environment, 2014, 152: 166-173.
[47]
Huffman G J, Adler R F, Bolvin D T, et al. The TRMM multi-satellite precipitation analysis: Quasi-global, multi-year, combined-sensor precipitation estimates at fine scale[J]. Journal of Hydrometeorology, 2007, 8: 38-55.
[48]
Francisco J T, Turk F J, Walt P, et al. Global precipitation measurement: Methods, datasets and applications[J]. Atmospheric Research, 2012, 104/105: 70-97.
[49]
Al-Yaari A, Wigneron J P, Ducharne A, et al. Global-scale evaluation of two satellite-based passive microwave soil moisture datasets (SMOS and AMSR-E) with respect to Land Data Assimilation System estimates[J]. Remote Sensing of Environment, 2014, 149: 181-195.
[50]
Andreas C, Steven C, Seung-bum K, et al. Long term analysis of PALS soil moisture campaign measurements for global soil moisture algorithm development[J]. Remote Sensing of Environment, 2012, 121: 309-322.
[51]
Al Bitar A, Leroux D, Kerr Y H, et al. Evaluation of SMOS soil moisture products over continental U.S. using the SCAN/SNOTEL network[J]. IEEE Transactions on Geoscience and Remote Sensing, 2012, 50: 1 572-1 586.
[52]
Working Group 1 Contribution to the IPCC Fifth Assessment Report (AR5). Climate Change 2013: The Physical Science Basis[R].Geneva: World Meteorological Organization, 2013.
[53]
Jiang Dong, Wang Naibin, Rosema A. Chinese energy and water balance monitoring system based on remote sensing technique[J]. Remote Sensing Information, 2002, 2: 7-10. [江东,王乃斌,Rosema A. 中国能量与水平衡遥感监测系统[J]. 遥感信息,2002,2:7-10.]
[54]
François-Marie B, Philippe C. Spaceborne remote sensing of greenhouse gas concentrations[J]. Comptes Rendus Geoscience, 2010, 342: 412-424.
[55]
Guo Huadong, Fu Wenxue, Li Xinwu, et al. Research on global change scientific satellites[J]. Science in China (Series D), 2014, 57: 204-215. [郭华东,傅文学,李新武,等. 全球变化科学卫星概念研究[J]. 中国科学:D辑,2014,44:49-60.]
[56]
Chen Hongping, Jia Gensuo, Feng Jinming, et al. Remote sensing estimates of key land surface vegetation variables used in climate model: A review[J]. Advances in Earth Science, 2014, 29(1): 56-67. [陈洪萍,贾根锁,冯锦明,等. 气候模式中关键陆面植被参量遥感估算的研究进展[J]. 地球科学进展,2014,29(1):56-67.]
[57]
Gao Feng, Wang Jiemin, Sun Chengquan,et al. Advances in application of remote sensing technology to land surface processes research[J].Advances in Earth Science, 2001, 16(3): 359-366. [高峰,王介民,孙成权,等. 遥感技术在陆面过程研究中的应用进展[J]. 地球科学进展,2001,16(3):359-366.]
[58]
Chen B Z, Chen J M, Ju W M. Remote sensing-based Ecosystem-Atmosphere Simulation Scheme (EASS)-Model formulation and test with multiple-year data[J]. Ecological Modelling, 2007, 209: 277-300.
[59]
Fisher J B, Tu K, Baldocchi D D. Global estimates of the land atmosphere water flux based on monthly AVHRR and ISLSCP-II data, validated at FLUXNET sites[J]. Remote Sensing of Environment, 2008, 112(3): 901-919.
[60]
Komatsu H, Cho J, Matsumoto K, et al. Simple modeling of the global variation in annual forest evapotranspiration[J]. Journal of Hydrology, 2012, 420/421: 380-390.
[61]
Yan N N, Wu B F. Integrated spatial-temporal analysis of crop water productivity of winter wheat in Hai Basin[J]. Agricultural Water Management, 2014, 133: 24-33.
[62]
Zhu W W, Wu B F, Yan N N, et al. A method to estimate diurnal surface soil heat flux from MODIS data for a sparse vegetation and bare soil[J]. Journal of Hydrology, 2014, 511: 139-150.
[63]
Wu B F, Xing Q, Yan N N, et al. A linear relationship between temporal multiband MODIS BRDF and aerodynamic roughness in HIWATER Wind Gradient data[J]. IEEE Geoscience and Remote Sensing Letters, 2015, 12(3): 507-511.
[64]
Yan H, Wang S Q, Billesbach D, et al. Global estimation of evapotranspiration using a leaf area index-based surface energy and water balance model[J]. Remote Sensing of Environment, 2012, 124: 581-595.
[65]
Qin Dahe, Xiao Cunde, Ding Yongjian, et al. Progress on cryospheric studies by international and Chinese communities and perspectives[J]. Journal of Applied Meteorological Science, 2006, 17(6): 649-656. [秦大河,效存德,丁永建,等. 国际冰冻圈研究动态和我国冰冻圈研究的现状与展望[J]. 应用气象学报,2006,17(6):649-656.]
[66]
Fang Zongyi, Xu Jianmin, Zhao Fengsheng. Progress and prospect of China meteorological satellite and satellite meteorology[J]. Acta Meteorologica Sinica, 2004, 62(5): 550-561. [方宗义,许健民,赵凤生. 中国气象卫星和卫星气象研究的回顾和发展[J]. 气象学报,2004,62(5):550-561.]
[67]
Zhang Hongmei, Wu Bingfang, Yan Na’na. Remote sensing estimates of vapor pressure deficit: An overview[J]. Advances in Earth Science, 2014, 29(5): 559-568. [张红梅,吴炳方,闫娜娜. 饱和水汽压差的卫星遥感研究综述[J]. 地球科学进展,2014,29(5):559-568.]
[68]
Zhang H M, Wu B F, Yan N N, et al. An improved satellite-based approach for estimating vapor pressure deficit from MODIS data[J]. Journal of Geophysical Research—Atmosphere, 2014, 119: 12 256-12 271.
[69]
Zhang Huan, Wang Rui, Jia Xu, et al. HY-2 satellite and its application[J]. Space International, 2012, 9: 1-8. [张欢,王睿,贾旭,等. 海洋-2卫星及其应用[J]. 国际太空,2012,9:1-8.]
[70]
Pan Delu, Wang Difeng. Advances in the science of marine optical remote sensing application in China[J]. Advances in Earth Science, 2004, 19(4): 506-512. [潘德炉,王迪峰. 我国海洋光学遥感应用科学研究的新进展[J]. 地球科学进展,2004,19(4):506-512.]
[71]
Hirano A, Welch R, Lang H. Mapping from ASTER stereo image data: DEM validation and accuracy assessment[J]. Photogrammetry and Remote Sensing, 2003, 57: 356-370.
[72]
Berry P A M, Garlick J D, Smith R G. Near-global validation of the SRTM DEM using satellite radar altimetry[J]. Remote Sensing of Environment, 2007, 106(1): 17-27.
[73]
Bruce R, Andreas K, Jeffrey S K, et al. Remote sensing and GIS technology in the Global Land Ice Measurements from Space (GLIMS) Project[J]. Computers & Geosciences, 2007, 33: 104-125.
[74]
Elena T, Sebastien G, Molly E B. Multiscale geostatistical analysis of AVHRR, SPOT-VGT, and MODIS global NDVI products[J]. Remote Sensing of Environment, 2008, 112: 535-549.
[75]
Gruber A, Wessel B, Huber M, et al. Operational TanDEM-X DEM calibration and first validation results[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2012, 73: 39-49.
[76]
Niraula R R, Gilani H, Pokharel B K, et al. Measuring impacts of community forestry program though repeat photography and satellite remote sensing in the Dolakha district of Nepal[J]. Journal of Environmental Management, 2013, 126: 20-29.
[77]
Yuan Wenping, Cai Wenwen, Liu Dan, et al. Satellite-based vegetation production models of terrestrial ecosystem: An overview[J]. Advances in Earth Science, 2014, 29(5): 541-550. [袁文平,蔡文文,刘丹,等. 陆地生态系统植被生产力遥感模型研究进展[J]. 地球科学进展,2014,29(5):541-550.]
[78]
Cheng Guodong, Xiao Honglang, Fu Bojie, et al. Advances in synthetic research on the eco-hydrological process of the Heihe River Basin[J]. Advances in Earth Science, 2014, 29(4): 431-437. [程国栋,肖洪浪,傅伯杰,等. 黑河流域生态—水文过程集成研究进展[J]. 地球科学进展,2014,29(4):431-437.]
[79]
Wang Xukun. Interdisciplinarity, interdisciplinary science and their position in the system of sciences[J]. Studies in Dialectics of Nature, 2000, 16(1): 43-47. [王续琨. 交叉学科、交叉科学及其在科学体系中的地位[J]. 自然辩证法研究,2000,16(1):43-47.]
[80]
Wu Bingfang, Meng Jihua, Li Qiangzi. Review of overseas crop monitoring systems with remote sensing[J]. Advances in Earth Science, 2010, 25(10): 1 003-1 012. [吴炳方, 蒙继华, 李强子. 国外农情遥感监测系统现状与启示[J]. 地球科学进展,2010,25(10):1 003-1 012.]
[81]
Chen Shupeng. The Explorations of Earth Sciences, Volume 6, Geo-information Science[M]. Beijing: Science Press, 2003. [陈述彭. 地学的探索(第六卷):地球信息科学[M]. 北京:科学出版社,2003.]
[82]
Liao Ke. Earth Information Science and its application in 21st century[J]. Science of Surveying and Mapping, 2001, 26(2): 1-6. [廖克. 21世纪的地球信息科学及其应用[J]. 测绘科学,2001,26(2):1-6.]
[83]
Zhang Xuejian,Zhang Nan. Let Space Earth Information Science Entering into Thousands of Households Soon-Interviewing Guo Huadong, Director-General of the Center for Earth Observation and Digital Earth, Chinese Academy of Sciences[N/OL]. Science Times, 2007-11-28[2014-11-19]. http:∥news.sciencenet.cn/html/showsbnews1.aspx?id=195270. [王学健,张楠.早日让空间地球信息科学进入千家万户——访中国科学院对地观测与数字地球科学中心主任郭华东[N/OL].科学时报,2007-11-28[2014-11-19]. http:∥news.sciencenet.cn/html/showsbnews1.aspx?id=195270.]
[84]
Becker-Reshef I, Justice C, Sullivan M, et al. Monitoring global croplands with coarse resolution Earth observations: The Global Agriculture Monitoring (GLAM) Project[J]. Remote Sensing, 2010, 2 (6): 1 589-1 609.
[85]
Shi Y, Ji S P, Shao X W, et al. Framework of SAGI agriculture remote sensing and its perspectives in supporting national food security[J]. Journal of Integrative Agriculture, 2014, 13(7): 1 443-1 450.
[86]
Wu B F, Meng J H, Li Q Z, et al. Remote sensing-based global crop monitoring: Experiences with China’s CropWatch system[J]. International Journal of Digital Earth, 2014, 7(2): 113-137.
[87]
Zhang M, Wu B F, Yu M Z, et al. Crop condition assessment with adjusted NDVI using the uncropped arable land ratio[J]. Remote Sensing, 2014, 6(6): 5 774-5 794.
[88]
Paul V D, Zhang J Z, Wang J, et al. Assessment of the contribution of in-situ combustion of coal to greenhouse gas emission: Based on a comparison of Chinese mining information to previous remote sensing estimates[J]. International Journal of Coal Geology, 2011, 86: 108-119.
[89]
Yu Guirui, Wang Qiufeng, Zhu Xianjin. Methods and uncertainties in evaluating the carbon budgets of regional terrestrial ecosystems[J].Progress in Geography, 2011, 30(1): 103-113. [于贵瑞,王秋凤,朱先进. 区域尺度陆地生态系统碳收支评估方法及其不确定性[J]. 地理科学进展,2011,30(1):103-113.]
[90]
Wu B F, Yan N N, Xiong J, et al. Validation of ETWatch using field measurements at diverse landscapes: A case study in Hai Basin of China[J]. Journal of Hydrology, 2012, 436/437: 67-80.
[91]
Wu B F, Jiang L P, Yan N N, et al. Basin-wide evapotranspiration management: Concept and practical application in Hai Basin, China[J]. Agricultural Water Management, 2014, 145: 145-153.
[92]
Chen Shupeng. The deep development and application of the mineral resources and remote sensing information[C]∥Chen Shupeng, Mao Dehua, eds. The Forum of Remote Sensing Science and Technology in 2007.Beijing: Earthquake Press, 2007: 373-380. [陈述彭. 矿产资源与遥感信息深度开发应用[C]∥陈述彭, 毛德华,著. 2007遥感科技论坛.北京: 地震出版社, 2007: 373-380.]
[93]
Liu Dechang, Li Zhizhong, Wang Junhu. The technology progress and developing future of remote sensing geological prospecting in China[J]. Journal of Geo-information Science, 2011, 13(4): 431-438. [刘德长,李志忠,王俊虎. 我国遥感地质找矿的科技进步与发展前景[J]. 地球信息科学学报,2011,13(4):431-438.]
[94]
Shenhua Group Corporation Limited. Shenhua Geological Exploration Company Gained 6 National Invention Patents[DB/OL]. Beijing: State-owned Assets Supervision and Administration Commission of the State Council, 2013[2014-11-20].http:∥www.sasac.gov.cn/n1180/n1226/n2410/n314319/15198325.html. [神华集团有限责任公司. 神华地勘公司获6项国家发明专利[DB/OL].北京:国务院国有资产监督管理委员会,2013[2014-11-20]. http:∥www.sasac.gov.cn/n1180/n1226/n2410/n314319/15198325.html.]
[95]
Shen Xuhui, Wu Yun, Shan Xinjian. Remote sensing application in earthquake science and general proposal for earthquake satellite project in China[J]. Recent Developments in World Seismology,2007, 344: 38-45. [申旭辉,吴云,单新建. 地震遥感应用趋势与中国地震卫星发展框架[J]. 国际地震动态,2007,344:38-45.]
[96]
Shi Juhua, Wu Shuren, Shi Ling. Remote sensing for landslide study: An overview[J]. Geological Review, 2008, 54(4): 505-514. [石菊松,吴树仁,石玲. 遥感在滑坡灾害研究中的应用进展[J]. 地质论评,2008,54(4):505-514.]
[97]
Lei Tianjie, Li Changchun, He Xiaoying. Application of aerial remote sensing of pilotless aircraft to disaster emergency rescue[J]. Journal of Natural Disasters, 2011, 20(1): 178-183. [雷添杰,李长春,何孝莹. 无人机航空遥感系统在灾害应急救援中的应用[J]. 自然灾害学报,2011,20(1):178-183.]
[98]
Li Zhen, Liao Jingjuan, Zhang Ping, et al. SAR parameter selection in disaster monitoring with C-band spaceborne SAR[J]. Remote Sensing Information, 2012, 27(6): 103-109. [李震,廖静娟,张平,等. C波段星载SAR系统在减灾应用中的工作模式选取[J]. 遥感信息,2012,27(6):103-109.]
[99]
He Haixia, Fan Yida, Yang Siquan, et al. Review on application capability of space optical remote sensing for natural disaster management[J]. Spacecraft Engineering, 2012, 21(4): 117-122. [和海霞,范一大,杨思全,等. 航天光学遥感在自然灾害管理中应用能力评述[J]. 航天器工程,2012,21(4):117-122.]
[100]
Dou M G, Chen J Y, Chen D, et al. Modeling and simulation for natural disaster contingency planning driven by high-resolution remote sensing images[J]. Future Generation Computer Systems, 2014, 37: 367-377.
[101]
Tao Heping, Liu Bintao, Liu Shuzhen, et al. Natural hazards monitoring using remote sensing—A case study of 5·12 Wenchuan earthquake[J].Journal of Mountain Science, 2008, 26(3): 276-279. [陶和平,刘斌涛,刘淑珍,等. 遥感在重大自然灾害监测中的应用前景——以5·12汶川地震为例[J]. 山地学报,2008,26(3):276-279.]
[102]
Li Qiangzi, Zhang Feifei, Du Xin, et al. Grain loss in main disaster area caused by Wenchuan earthquake[J]. Journal of Remote Sensing, 2009,13(5): 928-939. [李强子,张飞飞,杜鑫,等. 汶川地震粮食受损遥感快速估算与分析[J]. 遥感学报,2009,13(5):928-939.]
[103]
Zhao Dan, Zhang Miao, Yu Mingzhao, et al. Monitoring agriculture and forest recovery after the Wenchuan earthquake[J]. Journal of Remote Sensing, 2014, 18(4): 958-970. [赵旦,张淼,于名召,等. 基于机载和星载遥感的汶川地震灾后农田和森林植被恢复监测[J]. 遥感学报,2014,18(4):958-970.]
[104]
Yang Bin, Cao Chunxiang, Tian Rong, et al. Recovery evaluation of the eco-environmental quality after the Wenchuan earthquake[J]. Journal of Remote Sensing, 2014, 18(4): 946-957. [杨斌,曹春香,田蓉,等. 汶川县震后5年生态环境质量恢复评价[J]. 遥感学报,2014,18(4):946-957.]
[105]
Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences. RADI Carried Out Fire Disaster Monitoring and Evaluating in Australia Using Remote Sensing[DB/OL]. Beijing: Chinese Academy of Sciences, 2013[2014-11-15]. http:∥www.cas.cn/xw/yxdt/201310/t20131022_3961033.shtml. [中国科学院遥感与数字地球研究所. 遥感地球所开展澳大利亚山林火灾遥感监测与灾情评估[DB/OL].北京:中国科学院,2013[2014-11-15]. http:∥www.cas.cn/xw/yxdt/201310/t20131022_3961033.shtml.]
[106]
Tong Qingxi. Role of remote sensing in flood monitoring in 1998[J]. Climatic and Environmental Research, 1998, 3(4): 314-322. [童庆禧.遥感在1998年洪水监测中的作用[J]. 气候与环境研究,1998,3(4):314-322.]
[107]
Marti-Cardona B, Lopez-Martinez C, Dolz-Ripolles J, et al. ASAR polarimetric, multi-incidence angle and multitemporal characterization of Donana wetlands for flood extent monitoring[J]. Remote Sensing of Environment, 2010, 114(11): 2 802-2 815.
[108]
Florent M, Martin G S, Chao Y, et al. Ten years of global burned area products from spaceborne remote sensing—A review: Analysis of user needs and recommendations for future developments[J]. International Journal of Applied Earth Observation and Geoinformation, 2014, 26: 64-79.
[109]
Pang Yong, Li Zengyuan, Chen Erxue, et al. Lidar remote sensing technology and its application in forestry[J]. Scientia Silvae Sinicae, 2005, 41(3): 129-136. [庞勇,李增元,陈尔学,等. 激光雷达技术及其在林业上的应用[J]. 林业科学,2005,41(3):129-136.]
[110]
Heinz G, Giuliana Z, Cert-Jan N, et al. EU-wide maps of growing stock and above-ground biomass in forests based onremote sensing and field measurements[J]. Forest Ecology and Management, 2010, 260: 252-261.
[111]
Du Guoming, Li Yun, Yu Fengrong, et al. Change characteristics analysis of farmland in Northern Sanjiang Plainin 2000-2009 based on remote sensing[J]. Transactions of the Chinese Society of Agricultural Engineering, 2012, 28(1): 225-229. [杜国明,李昀,于风荣,等. 基于遥感的2000—2009年三江平原北部耕地变化特征分析[J]. 农业工程学报,2012,28(1):225-229.]
[112]
Lu S L, Wu B F, Wang H, et al. Hydro-ecological impact of water conservancy projects in the Haihe River Basin[J]. Acta Oecologica, 2012, 44: 67-74.
[113]
Zhang L, Wu B F, Zhu L, et al. Patterns and driving forces of cropland changes in the Three Gorges area, China[J]. Regional Environmental Change, 2012 ,12(4): 765-776.
[114]
Li Deren, Wang Mi, Hu Fen. Monitoring illegal construction in Beijing using Chinese high resolution satellite image[J]. Chinese Science Bulletin, 2009, 54(3): 305-311. [李德仁,王密,胡芬. 利用我国高分辨率卫星影像监测北京市违章建筑[J]. 科学通报,2009,54(3):305-311.]
[115]
Huo Hongtao. Study on the monitoring of banning planting drug plants using satellite remote sensing technology[J]. Journal of Chinese People’s Public Security University, 2003, 33: 26-29. [霍宏涛. 应用卫星遥感技术进行毒品原植物禁种监测的研究[J]. 公安大学学报:自然科学版,2003,33:26-29.]
[116]
Tian Y, Wu B F, Zhang L, et al. Oppium poppy monitoring with remote sensing in North Myanmar[J]. International Journal of Drug Policy, 2011, 22(4): 278-284.
[117]
Wang Lixue. The Direct Food Subsidies and General Subsidies for Agriculture Supplies are 125 CNY Per mu This Year[DB/OL].Zao Zhuang: Zao Zhuang Newsnet, 2014[2014-11-10]. http:∥www.zaozhuang. gov.cn/ art/2012/11/26/art_2271_483091.html. [王立雪. 今年粮食直补和农资综合补贴每亩125元[DB/OL].枣庄:枣庄新闻网,2014[2014-11-10]. http:∥www.zaozhuang.gov.cn/ art/2012/11/26/ art_2271_483091.html.]
[118]
Qu Hongsong, Jin Guang, Zhang Ye. Next view program and progress in optical remote sensing satellites[J]. Chinese Journal of Optics and Applied Optics, 2009, 2(6): 467-476. [曲宏松,金光,张叶.“Next View计划”与光学遥感卫星的发展趋势[J]. 中国光学与应用光学,2009,2(6):467-476.]
[119]
Xu Hong, Wang Xiangjun. Applications of multispectral/hyperspectral imaging technologies in military[J]. Infrared and Laster Engineering, 2007, 36(1): 13-17. [许洪,王向军. 多光谱、超光谱成像技术在军事上的应用[J]. 红外与激光工程,2007,36(1):13-17.]
[120]
Tian Jinchang. The military application analysis of Synthetic Aperture Radar[J].Aerodynamic Missiles Journal, 2010, 2: 2-8.[田锦昌. 合成孔径雷达在军事上的应用分析[J]. 飞航导弹,2010,2:2-8.]
[121]
Fleming S, Jordan T, Madden M, et al. GIS applications for military operations in coastal zones[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 2009, 64: 213-222.
[122]
Duan Chengli, Qi Wenjie. Development trend and countermeasure of military sensor[J]. Journal of Transducer Technology, 2003, 22(11): 4-8. [段成丽,齐文杰. 军用传感器的发展趋势与对策[J]. 传感器技术,2003, 22(11):4-8.]
[123]
Chen Shupeng. The Explorations of Earth Sciences. Volume 3, Remote Sensing Applications[M]. Beijing: Science Press, 1990. [陈述彭.地学的探索.第三卷,遥感应用[M]. 北京:科学出版社,1990.]
[124]
Ye Peijian, Huang Jiangchuan, Sun Zezhou, et al. The process and experience in the development of Chinese lunar probe[J]. Science in China (Series E),2014, 44(6): 543-558. [叶培建,黄江川,孙泽洲,等. 中国月球探测器发展历程和经验初探[J]. 中国科学:E辑,2014,44(6):543-558.]
[125]
Ren Xianshao, Wu Bingfang. The Method and Practice of Water Consumption Management over River Basin[M]. Beijing: Science Press, 2014. [任宪韶,吴炳方. 流域耗水管理方法与实践[M]. 北京:科学出版社,2014.]
[126]
Li Mengxue. The ten year implementation plan and enlightenment of international cooperation in Earth observation field[J]. Science & Technology Industry of China, 2007, 7: 78-81. [李梦学. 地球观测领域国际合作十年执行计划及启示[J]. 中国科技产业,2007,7:78-81.]
[127]
Donohue R J, Roderick M L, McVicar T R. Deriving consistent long-term vegetation information from AVHRR reflectance data using a cover-triangle-based framework[J]. Remote Sensing of Environment, 2008, 112: 2 938-2 949.
[128]
Sterckx S, Benhadj I, Duhoux G, et al. The PROBA-V mission: image processing and calibration[J]. International Journal of Remote Sensing, 2014, 35(7): 2 565-2 588.
