土地整治遥感监测研究进展分析
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摘要
通过回顾国内外土地整治概念及内容的发展历程,总结了新时期土地整治的基本内涵和工作需求。通过分析遥感在土地整治工作中的广泛应用,梳理了土地整治遥感监测的发展脉络,归纳了土地整治遥感监测的关键技术及其研究现状,进而给出了土地整治遥感监测相关技术及应用的发展趋势。分别从土地资源调查与保护、土地复垦与生态修复、农用地整治、宜农未利用地开发、建设用地整治及生态化土地整治等不同土地整治类型和潜力测算与风险评估、规划设计、施工监管及验收评价等土地整治项目过程等角度,对多年来遥感技术在土地整治工作中的应用情况进行了系统阐述,最后在总结技术优势与局限的基础上,提出了未来的攻关难点和发展方向,为土地整治遥感监测工作的开展提供科学参考。
By reviewing the development history of concepts and contents on land consolidation at home and abroad,the basic connotation and work needs of land consolidation in the new era were summarized.By analyzing the wide application of remote sensing in land consolidation works,the development of remote sensing monitoring of land consolidation was sorted out,the related key technologies and its research status were summarized,and then the development trend of related technologies and applications of land consolidation remote sensing monitoring were given. The application of remote sensing technology in land consolidation works for many years was systematically expounded from two angles. These two angles were different types and project stages of land consolidation. The different types of land consolidation included land resource survey and protection,land reclamation and ecological restoration,agricultural land consolidation,development of unused farming-suitable agricultural land,construction land consolidation and ecological land consolidation and so on. The different project stages of land consolidation included potential and risk measurement,engineering planning,construction supervision and acceptance evaluation and so on. Finally,the research difficulties and development direction in the future were put forward based on summarizing the technical advantages and limitations. The research result can provide scientific reference for the implementation of remote sensing monitoring of land consolidation.
By reviewing the development history of concepts and contents on land consolidation at home and abroad,the basic connotation and work needs of land consolidation in the new era were summarized.By analyzing the wide application of remote sensing in land consolidation works,the development of remote sensing monitoring of land consolidation was sorted out,the related key technologies and its research status were summarized,and then the development trend of related technologies and applications of land consolidation remote sensing monitoring were given. The application of remote sensing technology in land consolidation works for many years was systematically expounded from two angles. These two angles were different types and project stages of land consolidation. The different types of land consolidation included land resource survey and protection,land reclamation and ecological restoration,agricultural land consolidation,development of unused farming-suitable agricultural land,construction land consolidation and ecological land consolidation and so on. The different project stages of land consolidation included potential and risk measurement,engineering planning,construction supervision and acceptance evaluation and so on. Finally,the research difficulties and development direction in the future were put forward based on summarizing the technical advantages and limitations. The research result can provide scientific reference for the implementation of remote sensing monitoring of land consolidation.
引文
[1] SKINNER M W,KUHN R G,JOSEPH A E. Agricultural land protection in China:a case study of local governance in Zhejiang Province[J]. Land-use Policy,2001,18(4):329-340.
[2] TILMAN D,CASSMAN K G,MATSON P A,et al. Agricultural sustainability and intensive production practices[J]. Nature,2002,418(6898):671-677.
[3] HEERINK N,QU F,KUIPER M,et al. Policy reforms,rice production and sustainable land-use in China:a macro-micro analysis[J]. Agric. Syst.,2007,94(3):784-800.
[4] JIANG G,WANG X,YUN W,et al. A new system will lead to an optimal path of land consolidation spatial management in China[J]. Land Use Policy,2015,42(42):27-37.
[5] SETO K C,KAUFMANN R K,WOODCOCK C E. Landsat reveals China's farmland reserves,but they're vanishing fast[J].Nature,2000,406(6792):121.
[6] ZHAO W Z,XIAO H L,LIU Z M,et al. Soil degradation and restoration as affected by land-use change in the semiarid Bashang Area,Northern China[J]. Catena,2005,59(2):173-186.
[7] TAN M,LI X,XIE H,et al. Urban land expansion and arable land loss in China:a case study of Beijing-Tianjin-Hebei region[J]. Land-use Policy,2005,22(3):187-196.
[8] GAO J,LIU Y. Determination of land degradation causes in Tongyu County,Northeast China via land cover change detection[J]. Int. J. Appl. Earth Observ. Geoinform.,2010,12(1):9-16.
[9] WANG J,CHEN Y Q,SHAO X M,et al. Land-use changes and policy dimension driving forces in China:present,trend and future[J]. Land-use Policy,2012,29(4):737-749.
[10]郧文聚,高璐璐,张超,等.从生态文明视角看我国土地利用的变化及影响[J].环境保护,2018,46(20):31-35.YUN Wenju,GAO Lulu,ZHANG Chao,et al. The change and influence of land use in China from the perspective of ecological civilization[J]. Environmental Protection,2018,46(20):31-35.(in Chinese)
[11]郧文聚,杨晓艳,石英.土地整理概念的科学界定[J].资源与产业,2008,10(5):1-2.YUN Wenju,YANG Xiaoyan,SHI Ying. Scientific definition of land consolidation concept[J]. Resources&Industries,2008,10(5):1-2.(in Chinese)
[12]李北方,胡如忠,张曾祥.遥感技术为国土资源调查开辟广阔前景[J].遥感信息,1986(4):7-8.LI Beifang,HU Ruzhong,ZHANG Zengxiang. Remote sensing technology opens up broad prospects for land and resources survey[J]. Remote Sensing Information,1986(4):7-8.(in Chinese)
[13]李少帅.“天眼”看整治——对土地整治遥感监测工作的思考[J].中国土地,2014(11):45-46.LI Shaoshuai.“Tianyan”seeing renovation—thinking on remote sensing monitoring of land remediation[J]. China Land,2014(11):45-46.(in Chinese)
[14]张超,乔敏,郧文聚,等.耕地数量、质量、生态三位一体综合监管体系研究[J/OL].农业机械学报,2017,48(1):1-6. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170101&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2017. 01. 001.ZHANG Chao,QIAO Min,YUN Wenju,et al. Trinity comprehensive regulatory system about quantity,quality and ecology of cultivated land[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(1):1-6.(in Chinese)
[15]张文博.无人机航测技术在土地综合整治中的应用研究[D].长沙:长沙理工大学,2013.ZHANG Wenbo. Application of aerial survey technology of drones in comprehensive land improvement[D]. Changsha:Changsha University of Science and Technology,2013.(in Chinese)
[16]邵金强,罗斐. 3S技术在土地综合整治项目中的应用探讨[J].科技信息,2014(8):163.SHAO Jinqiang,LUO Fei. Application of 3S technology in land comprehensive improvement project[J]. Science and Technology Information,2014(8):163.(in Chinese)
[17] ZHANG Q Q,LUO H B,YAN J M. Integrating biodiversity conservation into land consolidation in hilly areas—a case study in southwest China[J]. Acta Ecologica Sinica,2012,32(6):274-278.
[18]孟宪素,李少帅.遥感技术在土地整理复垦开发项目监管工作中的应用实践[J].资源与产业,2009,11(2):66-70.MENG Xiansu,LI Shaoshuai. Application of remote sensing technology in the supervision of land consolidation and reclamation development projects[J]. Resources&Industries,2009,11(2):66-70.(in Chinese)
[19]胡振琪,梁宇生,巩玉玲,等. 2016年土地科学研究重点进展评述及2017年展望——土地工程与技术分报告[J].中国土地科学,2017(3):70-79.HU Zhenqi,LIANG Yusheng,GONG Yuling,et al. Review of the key progress of land science research in 2016 and the outlook for 2017—land engineering and technology sub-reports[J]. China Land Science,2017(3):70-79.(in Chinese)
[20]张晓燕.关于加快推进土地整治科技创新的思考[J].中国土地,2017(3):20-22.ZHANG Xiaoyan. Thoughts on accelerating the scientific and technological innovation of land consolidation[J]. China Land,2017(3):20-22.(in Chinese)
[21]谭少军,邵景安.基于生态适宜性评价的西南丘陵区土地整治工程布局研究[J].地理研究,2018,37(4):659-677.TAN Shaojun,SHAO Jingan. Research on the layout of land consolidation engineering in southwest hilly area based on ecological suitability evaluation[J]. Geographical Research,2018,37(4):659-677.(in Chinese)
[22] SUSH Q,LIN B S,ZENG X T. The environmental protection problem and its solution in land consolidation project[J]. The Ecological Environment,2006,15(4):881-884.
[23]戴建清.基于遥感的土地整理评价可行性研究[J].城市勘测,2007(2):47-48.DAI Jianqing. Feasibility study of land consolidation evaluation based on remote sensing[J]. Urban Survey,2007(2):47-48.(in Chinese)
[24] LU Y,JENKINS A,FERRIER R C,et al. Addressing China's grand challenge of achieving food security while ensuring environmental sustainability[J]. Science Advances,2015,1(1):e1400039.
[25] CRECENTE R,ALVAREZ C,FRA U. Economic,social and environmental impact of land consolidation in Galicia[J]. Landuse Policy,2002,19(2):135-147.
[26] BRINK A V D. Land consolidation and the emergence of the metropolitan landscape[J]. Modern Land Consolidation,2004:89-98.
[27] VAN D M P,LEMMEN C,UIMONEN M. Modern land consolidation:multipurpose approach for sustainable development[J].GIM International,2005,19(1):51-53.
[28] MIRANDA D,CRECENTE R,ALVAREZ M F. Land consolidation in inland rural Galicia,NW Spain,since 1950:an example of the formulation and use of questions,criteria and indicators for evaluation of rural development policies[J]. Landuse Policy,2006,23(4):511-520.
[29] CAY T,AYTEN T,ISCAN F. Effects of different land reallocation models on the success of land consolidation projects:social and economic approaches[J]. Land-use Policy,2010,27(2):262-269.
[30] PASAKARNIS G,MORLEY D,MALIENE V. Rural development and challenges establishing sustainable land-use in Eastern European countries[J]. Land-use Policy,2013,30(1):703-710.
[31]蔡朕.西南丘陵山区生态化土地整治规划设计研究[D].重庆:西南大学,2014.CAI Zhen. Research on the planning and design of ecological land remediation in Southwest Hilly Areas[D]. Chongqing:Southwest University,2014.(in Chinese)
[32] PASAKARNIS G,MALIENE V. Towards sustainable rural development in Central and Eastern Europe:applying land consolidation[J]. Land-use Policy,2010,27(2):545-549.
[33]夏方舟,杨雨濛,严金明.中国国土综合整治近40年内涵研究综述:阶段演进与发展变化[J].中国土地科学,2018,32(5):78-85.XIA Fangzhou,YANG Yumeng,YAN Jinming. The connotation research review on integrated territory consolidation of China in recent four decades:staged evolution and developmental transformation[J]. China Land Sciences,2018,32(5):78-85.(in Chinese)
[34]赖云,祁琼.无人机航测在土地整治项目核查验收中的应用[J].地理空间信息,2014(5):20-22.LAI Yun,QI Qiong. Application of UAV aerial survey in verification and acceptance of land remediation projects[J].Geospatial Information,2014(5):20-22.(in Chinese)
[35]胡振琪,陈涛.基于ERDAS的矿区植被覆盖度遥感信息提取研究——以陕西省榆林市神府煤矿区为例[J].西北林学院学报,2008,23(2):164-167,183.HU Zhenqi,CHEN Tao. Remote sensing information extraction of vegetation coverage based on ERDAS—taking Shenfu Coal Mine Area of Yulin City,Shaanxi Province as an example[J]. Journal of Northwest Forestry University,2008,23(2):164-167,183.(in Chinese)
[36]韩周炳,何龙飞.无人机航摄技术在土地整治项目中的应用[J].智能城市,2018,14(6):900-901.HAN Zhoubing,HE Longfei. Application of UAV aerial photography technology in land remediation projects[J]. Smart City,2018,14(6):900-901.(in Chinese)
[37]顾振伟,张超,杨建宇,等.基于高分辨率遥感影像的灌排沟渠提取方法[J].农业工程,2014,4(3):64-67.GU Zhenwei,ZHANG Chao,YANG Jianyu,et al. Extraction method of irrigation and drainage ditch based on high resolution remote sensing image[J]. Agriculture Engineering,2014,4(3):64-67.(in Chinese)
[38]孙小芳.结合目标分割的高光谱城市地物分类[J].国土资源遥感,2017,29(3):171-175.SUN Xiaofang. Classification of hyperspectral urban land objects based on target segmentation[J]. Remote Sensing for Land and Resources,2017,29(3):171-175.(in Chinese)
[39]王宏胜,李永树,吴玺,等.结合空间分析的面向对象无人机影像土地利用分类[J].测绘工程,2018(2):57-61.WANG Hongsheng,LI Yongshu,WU Xi,et al. Land use classification of object-oriented UAV image based on spatial analysis[J]. Surveying and Mapping Engineering,2018(2):57-61.(in Chinese)
[40]孙斌.退化土地遥感识别与评价技术研究[D].北京:中国林业科学研究院,2016.SUN Bin. Research on remote sensing identification and evaluation technology of degraded land[D]. Beijing:Chinese Academy of Forestry,2016.(in Chinese)
[41]杜国明,李昀,于凤荣,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.DU Guoming,LI Yun,YU Fengrong,et al. Change characteristics analysis of farmland in Northern Sanjiang Plain in 2000—2009 based on remote sensing[J]. Transactions of the CSAE,2012,28(1):225-229.(in Chinese)
[42]王启亮.彩红外遥感技术在崇明县土利用现状调查中的应用[J].运城高专学报,2000,18(6):29-30.WANG Qiliang. Application of color infrared remote sensing technology in the survey of soil use status in Chongming County[J]. Journal of Yuncheng College of Technology,2000,18(6):29-30.(in Chinese)
[43]林珲.二滩电站建设中水库淹没损失的遥感估算[J].资源科学,1984,6(4):66-74.LIN Hui. Remote sensing estimation of reservoir inundation loss in the construction of Ertan Hydropower Station[J]. Resources Science,1984,6(4):66-74.(in Chinese)
[44]花东文,韩霁昌,张扬,等.基于探地雷达方法的新增耕地土层厚度估测——以南泥湾土地整治项目为例[J].西部大开发(土地开发工程研究),2016(1):36-41.HUA Dongwen,HAN Jichang,ZHANG Yang,et al. Estimation of new cultivated soil thickness based on ground penetrating radar method—taking Nanniwan land improvement project as an example[J]. West Development(Land Development Engineering Research),2016(1):36-41.(in Chinese)
[45]王旭辉.遥感技术及在城市国土规划中的应用[J].上海国土资源,2014,35(1):88-91.WANG Xuhui. Remote sensing technology and its application in urban land planning[J]. Shanghai Land Resources,2014,35(1):88-91.(in Chinese)
[46] PITAS I,VENETSANOPOULOS A N. Nonlinear digital filters:principles and applications[M]. Boston,MA:Kluwer,1990.
[47] GONZALES R C,WOODS R E. Digital image processing[M]. Addison·Wesley,1992.
[48] KO S J,LEE Y H. Center weighted median filters and their applications to image enhancement[J]. IEEE Transactions on Circuits and Systems,1991,38(9):984-993.
[49] LEE Y H,KASSAM S A. Generalized median filtering and related nonlinear filtering techniques[J]. IEEE Transactions on Acoustics,Speech and Signal Processing,1985,33(3):672-283.
[50] BROWNRIGG D R K. Generation of representative members of a Rr Sst weighted median filter class[J]. IEE Proceedings Part E Communications,Radar and Signal Processing,1986,33(5):445-448.
[51] LIN H,WILLSON A N. Median filter with adaptive length[J]. IEEE Transactions on Circuits and Systems,1988,35(6):675-690.
[52] SUN T,NEUVO Y. Detail-preserving median based filters in image processing[J]. Pattern Recognition Letters,1994,15(3):341-347.
[53] ABREU E,LIGHTSTONE M,MITR S K,et al. A new efficient approach for the removal of impulse noise from highly corrupted images[J]. IEEE Transactions on Image Processing,1996,5(6):1012-1025.
[54] HWANG H,HADDAD R A. Adaptive median filter:new algorithms and results[J]. IEEE Transactions on Image Processing,1995,4(4):499-502.
[55]李树涛.多传感器影像信息融合方法与应用研究[D].长沙:湖南大学,2001.LI Shutao. Multi-sensor image information fusion method and application research[D]. Changsha:Hunan University,2001.(in Chinese)
[56] STARCK J L,DONOHO D L,CANDS E J. Very high quality image restoration by combining wavelets and Curvelets[J].Proc of SPIE,2001,4478:9-19.
[57] ESLAMI R,RADHA H. New image transforms using hybrid wavelets and directional filter banks:analysis and design[J].Proc of IEEE Int Conf Image Processing,2005(1):733-736.
[58] XIE Z. Image registration using hierarchical B-Splines[D]. USA Arizona State University,2002.
[59] HANAIZUMI H,FUJIURA S. An automated method for registration of satellite remote sensing images[C]∥Proceedings of the International Geoscience and Remote Sensing Symposium IGARSS'93,1993:1348-1350.
[60] WONG A,CLAUSI D A. ARRSI:automatic registration of remote-sensing images[J]. IEEE Trans. on GRS,2007,45(5):1483-1493.
[61] RANDRIANARISOA V,YANG X J,SHENG Y,et al. Robust automatic ground image feature extraction for multisensor image registration[J]. Proceedings of SPIE-The International Society for Optical Engineering,2001,4385:129-139.
[62]裴璐乾. SAR、红外、可见光影像配准及融合算法研究[D].西安:西安电子科技大学,2011.PEI Luqian. Research on SAR,infrared,visible image registration and fusion algorithm[D]. Xian:Xidian University,2011.(in Chinese)
[63]陈洁.红外与可见光影像融合算法研究[D].武汉:华中科技大学,2013.CHEN Jie. Research on infrared and visible image fusion algorithm[D]. Wuhan:Huazhong University of Science and Technology,2013.(in Chinese)
[64]张倩,张荣,刘政凯.基于相似性度量的高分辨率SAR影像无监督分割[J].中国科学技术大学学报,2010,40(2):123-128.ZHANG Qian,ZHANG Rong,LIU Zhengkai. Unsupervised segmentation of high resolution SAR images based on similarity measures[J]. Journal of University of Science and Technology of China,2010,40(2):123-128.(in Chinese)
[65]姚为,韩敏.热红外与多光谱遥感影像的神经网络回归融合方法研究[J].中国影像图形学报,2010,15(8):1278-1284.YAO Wei,HAN Min. Research on neural network regression fusion method of thermal infrared and multi-spectral remote sensing images[J]. Journal of Image and Graphics,2010,15(8):1278-1284.(in Chinese)
[66]韩玲,吴汉宁,杜子涛.多源遥感影像数据融合方法在地学中的应用[J].地球科学与环境学报,2005,27(3):78-81.HAN Ling,WU Hanning,DU Zitao. Application of multi-source remote sensing image data fusion method in geosciences[J].Journal of Earth Sciences and Environment,2005,27(3):78-81.(in Chinese)
[67]衢霖,邵芸,范湘涛.雷达遥感的地学应用及其进展[J].遥感技术与应用,2002,17(5):269-275.QU Lin,SHAO Yun,FAN Xiangtao. Geoscience application of radar remote sensing and its progress[J]. Remote Sensing Technology and Application,2002,17(5):269-275.(in Chinese)
[68] POHL C,VAN-GENDEREN J L. Multisensor image fusion in remote sensing concepts,methods,and applications[J].International Journal of Remote Sensing,1998,19(5):823-854.
[69]高文涛,汪小钦,凌飞龙.基于纹理的雷达与多光谱遥感数据小波融合研究[J].中国图象图形学报,2008,13(7):1341-1347.GAO Wentao,WANG Xiaoqin,LING Feilong. Wavelet fusion research of texture-based radar and multi-spectral remote sensing data[J]. Journal of Image and Graphics,2008,13(7):1341-1347.(in Chinese)
[70]敬忠良,肖刚,李振华.影像融合:理论与应用[M].北京:高等教育出版社,2007.
[71] BUTT P J,ADELSON E H. Merging images through pattem decomposition[J]. Proceedings of SPIE,1985,575:173-182.
[72] NASON G P,SILVERMAN B W. The stationary wavelet transform and some statistical applications[J]. Wavelets and Statistics,1995.
[73] DONOHO D L. Wedgelet:nearly minimax estimation of edges[J]. The Annals of Statistics,1999,27(3):859-897.
[74] CUNHA A L D,ZHOU J P,DO M N. The nonsubsampled contourlet transform:theory,design,and applications[J]. IEEE Trans. on Image Processing,2006,15(10):3089-3101.
[75] WANG Z,MA Y. Medical image fusion using m-PCNN[J]. Information Fusion,2008,9(2):176-185.
[76] LI S T,SHAWE-TAYLOR J. Comparison and fusion of multiresolution features for texture classification[J]. Pattern Recognition Letter,2005,26(5):633-638.
[77]王宏,敬忠良,李建勋.多分辨率影像融合的研究与发展[J].控制理论与应用,2004,21(4):145-151.WANG Hong,JING Zhongliang,LI Jianxun. Research and development of multi-resolution image fusion[J]. Control Theory and Application,2004,21(4):145-151.(in Chinese)
[78]刘贵喜.多传感器影像融合方法研究[D].西安:西安电子科技大学,2001.LIU Guixi. Research on multi-sensor image fusion method[D]. Xi'an:Xi'an University of Electronic Science and Technology,2001.(in Chinese)
[79]徐青,邢帅,耿则勋,等.遥感影像融合与分辨率增强技术[M].北京:科学出版社,2007:68-84.
[80]贾永红.多源遥感影像数据融合技术[M].北京:测绘出版社,2005:4.
[81]钟庆新.多源遥感影像融合相关技术研究[D].长沙:中南大学,2009.ZHONG Qingxin. Research on multi-source remote sensing image fusion related technology[D]. Changsha:Central South University,2009.(in Chinese)
[82]乔玉良.黄土地区高中低产农田成因及遥感分类方法研究——以山西省定襄县为例[J].遥感学报,2002,6(1):70-74.QIAO Yuliang. Study on the genesis and remotely sensing classification method of high,central and low production in loess areas—a case study from Dianjing County,Shanxi Province[J]. Journal of Remote Sensing,2002,6(1):70-74.(in Chinese)
[83]张超,王纪华,赵春江,等.利用多时相遥感影像监测季节性裸露农田[J].农业工程学报,2005,21(11):90-94.ZHANG Chao,WANG Jihua,ZHAO Chunjiang,et al. Monitoring the Beijing naked cropland in winter and spring with multitemporal remotely sensed images[J]. Transactions of the CSAE,2005,21(11):90-94.(in Chinese)
[84]黄秋燕,肖鹏峰,冯学智,等.一种基于TV-Gabor模型的高分辨率遥感影像农田信息提取方法[J].遥感信息,2014,29(2):77-82.HUANG Qiuyan,XIAO Pengfeng,FENG Xuezhi,et al. A method of farmland information extraction based on TV-Gabor model for high resolution remote sensing image[J]. Remote Sensing Information,2014,29(2):77-82.(in Chinese)
[85]陈杰,陈铁桥,梅小明,等.基于最优尺度选择的高分辨率遥感影像丘陵农田提取[J].农业工程学报,2014,30(5):99-107.CHEN Jie,CHEN Tieqiao,MEI Xiaoming,et al. Hilly farmland extraction from high resolution remote sensing imagery based on optimal scale selection[J]. Transactions of the CSAE,2014,30(5):99-107.(in Chinese)
[86]江东,丁方宇,郝蒙蒙,等.农田遥感识别方法与应用[J].甘肃科学学报,2017,29(2):43-47.JIANG Dong,DING Fangyu,HAO Mengmeng,et al. Remote sensing identification method and application of farmland[J].Journal of Gansu Sciences,2017,29(2):43-47.(in Chinese)
[87]王洪,刘伟铭.深度信任支持向量回归的耕地面积预测方法[J].郑州大学学报(理学版),2016,48(1):121-126.WANG Hong,LIU Weiming. Cultivated area prediction method based on deep trust support vector regression[J]. Journal of Zhengzhou University(Natural Science Edition),2016,48(1):121-126.(in Chinese)
[88]鲁恒,付萧,贺一楠,等.基于迁移学习的无人机影像耕地信息提取方法[J/OL].农业机械学报,2015,46(12):274-279. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20151237&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2015. 12. 037.LU Heng,FU Xiao,HE Yinan,et al. Cultivated land information extraction from high resolution UAV images based on transfer learning[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(12):274-279.(in Chinese)
[89]王利军,郭燕,贺佳,等.基于决策树和SVM的Sentinel-2A影像作物提取方法[J/OL].农业机械学报,2018,49(9):146-153. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180917&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2018. 09. 017.WANG Lijun,GUO Yan,HE Jia,et al. Classification method by fusion of decision tree and SVM based on Sentinel-2A image[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(9):146-153.(in Chinese)
[90]郭东锋,闫宁,胡海洲,等.基于机器学习算法的烤烟香型分类研究[J].江西农业学报,2016,28(2):43-48.GUO Dongfeng,YAN Ning,HU Haizhou,et al. Classification of flue-cured tobacco flavor based on machine learning algorithm[J]. Journal of Jiangxi Agricultural University,2016,28(2):43-48.(in Chinese)
[91]闫利,江维薇.多光谱遥感影像植被覆盖分类研究进展[J].国土资源遥感,2016,28(2):8-13.YAN Li,JIANG Weiwei. Progress in vegetation coverage classification of multispectral remote sensing images[J]. Remote Sensing for Land and Resources,2016,28(2):8-13.(in Chinese)
[92]赵旦,张淼,于名召,等.汶川地震灾后农田和森林植被恢复遥感监测[J].遥感学报,2014,18(4):958-970.ZHAO Dan,ZHANG Miao,YU Mingzhao,et al. Remote sensing monitoring of farmland and forest vegetation restoration after Wenchuan earthquake[J]. Journal of Remote Sensing,2014,18(4):958-970.(in Chinese)
[93]刘旭升.基于人工神经网络的森林植被遥感分类研究[D].北京:北京林业大学,2004.LIU Xusheng. Remote sensing classification of forest vegetation based on artificial neural network[D]. Beijing:Beijing Forestry University,2004.(in Chinese)
[94]吴宗胜,傅卫平,韩改宁.基于深度卷积神经网络的道路场景理解[J].计算机工程与应用,2017,53(22):8-15.WU Zongsheng,FU Weiping,HAN Gaining. Road scene understanding based on deep convolutional neural network[J].Computer Engineering and Applications,2017,53(22):8-15.(in Chinese)
[95]乔贤哲,张超,杨建宇,等.高分辨率遥感影像中农田灌溉设施的提取[J].测绘通报,2012(增刊1):372-374.QIAO Xianzhe,ZHANG Chao,YANG Jianyu,et al. Extraction of farmland irrigation facilities in high resolution remote sensing imagery[J]. Bulletin of Surveying and Mapping,2012(Supp. 1):372-374.(in Chinese)
[96]段新成.基于BP人工神经网络的土地利用分类遥感研究[D].北京:中国地质大学(北京),2008.DUAN Xincheng. Remote sensing of land use classification based on BP artificial neural network[D]. Beijing:China University of Geosciences(Beijing),2008.(in Chinese)
[97]陈睿敏,孙胜利.基于深度学习的红外遥感信息自动提取[J].红外,2017,38(8):37-43.CHEN Ruimin,SUN Shengli. Automatic extraction of infrared remote sensing information based on deep learning[J].Infrared,2017,38(8):37-43.(in Chinese)
[98] MURTHY C S,RAJUPV,BADRINATH K V S. Classification of wheat crop with multi-temporal images:performance of maximum likelihood and artificial neural networks[J]. International Journal of Remote Sensing,2003,24(23):4871-4890.
[99]蓝晓丹.面向对象的SPOT5遥感影像多分类器森林分类研究[D].南宁:广西大学,2010.LAN Xiaodan. Multiple classier combination forest classification of SPOT5 remote sensing image based on object-oriented approach[D]. Nanning:Guangxi University,2010.(in Chinese)
[100]白穆,刘慧平,乔瑜,等.高分辨率遥感影像分类方法在LUCC中的研究进展[J].国土资源遥感,2010(1):19-23.BAI Mu,LIU Huiping,QIAO Yu,et al. Research progress of high resolution remote sensing image classification method in LUCC[J]. Remote Sensing for Land and Resources,2010(1):19-23.(in Chinese)
[101]陈秋晓,骆剑承,周成虎,等.基于多特征的遥感影像分类方法[J].遥感学报,2004,8(3):239-245.CHEN Qiuxiao,LUO Jiancheng,ZHOU Chenghu,et al. Classification of remotely sensed imagery using multi-features based approach[J]. Journal of Remote Sensing,2004,8(3):239-245.(in Chinese)
[102]吕雅慧,郧文聚,张超,等.基于TOPSIS和BP神经网络的高标准农田综合识别[J/OL].农业机械学报,2018,49(3):196-204. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180324&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 03. 024.LYahui,YUN Wenju,ZHANG Chao,et al. Multi-characteristic comprehensive recognition of well-facilitied farmland based on TOPSIS and BP neural network[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(3):196-204.(in Chinese)
[103]张超,乔敏,刘哲,等.基于时序光谱和高分纹理分析的制种玉米田遥感识别[J/OL].农业机械学报,2018,49(5):218-225. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180525&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 05. 025.ZHANG Chao,QIAO Min,LIU Zhe,et al. Seed maize field identification based on analysis of remote sensing timing spectrum and high resolution texture[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(5):218-225.(in Chinese)
[104] YUFENG G E,THOMASSON J A,SUI R. Remote sensing of soil properties in precision agriculture:a review[J]. Frontiers of Earth Science,2011,5(3):229-238.
[105]李建龙,蒋平,刘培君,等.利用遥感光谱法进行农田土壤水分遥感动态监测[J].生态学报,2003,23(8):40-46.LI Jianlong,JIANG Ping,LIU Peijun,et al. The study on dynamic monitoring soil water contents using remote sensing optical method[J]. Acta Ecologica Sinica,2003,23(8):40-46.(in Chinese)
[106]郑兴明,赵凯,李晓峰,等.利用微波遥感土壤水分产品监测东北地区春涝范围和程度[J].地理科学,2015,35(3):334-339.ZHENG Xingming,ZHAO Kai,LI Xiaofeng,et al. Monitoring the range and degree of springing in Northeast China by using microwave remote sensing soil moisture products[J]. Scientia Geographica Sinica,2015,35(3):334-339.(in Chinese)
[107]谭建灿,毛克彪,左志远,等.基于卷积神经网络和AMSR2微波遥感的土壤水分反演研究[J].高技术通讯,2018(5):399-408.TAN Jiancan,MAO Kebiao,ZUO Zhiyuan,et al. Research on soil moisture inversion based on convolutional neural network and AMSR2 microwave remote sensing[J]. High Technology Letters,2018(5):399-408.(in Chinese)
[108]孙丽,王飞,李保国,等.基于多源数据的武陵山区干旱监测研究[J/OL].农业机械学报,2014,45(1):246-252.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20140138&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2014. 01. 038.SUN Li,WANG Fei,LI Baoguo,et al. Study on drought monitoring of Wuling Mountain Area based on multi-source data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2014,45(1):246-252.(in Chinese)
[109]黄婷.基于支持向量机的土壤基础肥力评价和土壤有机质含量预测研究[D].南京:南京农业大学,2015.HUANG Ting. Soil basic fertility evaluation and prediction of soil organic matter content based on support vector machine[D]. Nanjing:Nanjing Agricultural University,2015.(in Chinese)
[110]陈煦.基于光谱分析的农田土壤养分测定方法研究[D].杨凌:西北农林科技大学,2015.CHEN Xu. Study on soil nutrient determination method based on spectral analysis[D]. Yangling:Northwest A&F University,2015.(in Chinese)
[111]潘瑜春,王纪华,陆安祥,等.基于小麦长势遥感监测的土壤氮素累积估测研究[J].农业工程学报,2007,23(9):58-63.PAN Yuchun,WANG Jihua,LU Anxiang,et al. Estimation of soil nitrogen accumulation based on remotely-sensed monitoring of winter-wheat growth status[J]. Transactions of the CSAE,2007,23(9):58-63.(in Chinese)
[112]刘焕军,张新乐,郑树峰,等.黑土有机质含量野外高光谱预测模型[J].光谱学与光谱分析,2010,30(12):3355-3358.LIU Huanjun,ZHANG Xinle,ZHENG Shufeng,et al. Field hyperspectral prediction model for organic matter content in black soil[J]. Spectroscopy and Spectral Analysis,2010,30(12):3355-3358.(in Chinese)
[113]蒙继华,程志强,王一明. WOFOST模型与遥感数据同化的土壤速效养分反演[J].遥感学报,2018,22(4):546-558.MENG Jihua,CHENG Zhiqiang,WANG Yiming. Simulating soil available nutrients by a new method based on WOFOST model and remote sensing assimilation[J]. Journal of Remote Sensing,2018,22(4):546-558.(in Chinese)
[114]张素铭,赵庚星,王卓然,等.滨海盐渍区土壤盐分遥感反演及动态监测[J].农业资源与环境学报,2018,35(4):349-358.ZHANG Suming,ZHAO Gengxing,WANG Zhuoran,et al. Remote sensing inversion and dynamic monitoring of soil salt in coastal saline area[J]. Journal of Agricultural Resources and Environment,2018,35(4):349-358.(in Chinese)
[115]王爽,丁建丽,王璐,等.基于地表光谱建模的区域土壤盐渍化遥感监测研究[J].干旱区地理,2016,39(1):190-198.WANG Shuang,DING Jianli,WANG Lu,et al. Remote sensing monitoring of soil salinization based on surface spectral modeling[J]. Arid Land Geography,2016,39(1):190-198.(in Chinese)
[116]彭杰,刘焕军,史舟,等.盐渍化土壤光谱特征的区域异质性及盐分反演[J].农业工程学报,2014,30(17):167-174.PENG Jie,LIU Huanjun,SHI Zhou,et al. Regional heterogeneity of hyperspectral characteristics of salt-affected soil and salinity inversion[J]. Transactions of the CSAE,2014,30(17):167-174.(in Chinese)
[117]安德玉,邢前国,赵庚星.基于HICO波段的滨海土壤盐分遥感反演研究[J].海洋学报,2018,40(6):51-59.AN Deyu,XING Qianguo,ZHAO Gengxing. Hyperspectral remote sensing of soil salinity for coastal saline soil in the Yellow River Delta based on HICO bands[J]. Acta Oceanologica Sinica,2018,40(6):51-59.(in Chinese)
[118]冯雪力,刘全明.基于多源遥感协同反演的区域性土壤盐渍化监测[J/OL].农业机械学报,2018,49(7):127-133.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180716&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2018. 07. 016.FENG Xueli,LIU Quanming. Regional soil salinity monitoring based on multi-source collaborative remote sensing data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(7):127-133.(in Chinese)
[119]张静静,周卫红,邹萌萌,等.高光谱遥感监测大面积土壤重金属污染的研究现状、原理及展望[J].江苏农业科学,2018,46(12):9-13.ZHANG Jingjing, ZHOU Weihong, ZOU Mengmeng, et al. Research status, principles and development trend of hyperspectral remote sensing for monitoring heavy metal pollution in large-area soils[J]. Jiangsu Agricultural Sciences,2018,46(12):9-13.(in Chinese)
[120] KUANG S A,TIAN S F,CHENG B. Remote sensing monitoring of land desertification in the agriculture and graziery mixed area[J]. Remote Sensing for Land&Resources,2002,14(2):10-14.
[121]王雪璐.青藏高原三江源高寒草地生态系统土壤侵蚀研究[D].兰州:兰州大学,2016.WANG Xuelu. Soil erosion of alpine grassland ecosystem in Sanjiangyuan,Qinghai-Tibet Plateau[D]. Lanzhou:Lanzhou University,2016.(in Chinese)
[122]牛忠恩,闫慧敏,黄玫,等.基于MODIS-OLI遥感数据融合技术的农田生产力估算[J].自然资源学报,2016,31(5):875-885.NIU Zhongen,YAN Huimin,HUANG Mei,et al. Agricultural productivity estimation with MODIS-OLI fusion data[J].Journal of Natural Resources,2016,31(5):875-885.(in Chinese)
[123]肖武,陈佳乐,笪宏志,等.基于无人机影像的采煤沉陷区玉米生物量反演与分析[J/OL].农业机械学报,2018,49(8):169-180. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180820&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 08. 020.XIAO Wu,CHEN Jiale,YAN Hongzhi,et al. Inversion and analysis of maize biomass in coal mining subsidence area based on UAV images[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(8):169-180.(in Chinese)
[124]马佳妮,张超,吕雅慧,等.多源遥感数据支撑的耕地质量监测与评价[J].中国农业信息,2018,30(3):14-22.MA Jiani,ZHANG Chao,LYahui,et al. Monitoring and evaluation of cultivated land quality supported by multi-source remote sensing[J]. China Agricultural Informatics,2018,30(3):14-22.(in Chinese)
[125]毕如田,白中科.基于遥感影像的露天煤矿区土地特征信息及分类研究[J].农业工程学报,2007,23(2):77-82.BI Rutian,BAI Zhongke. Land characteristic information and classification in opencast coal mine based on remote sensing images[J]. Transactions of the CSAE,2007,23(2):77-82.(in Chinese)
[126]张超,李智晓,李鹏山,等.基于高分辨率遥感影像分类的城镇土地利用规划监测[J/OL].农业机械学报,2015,46(11):323-329. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20151144&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. 11. 044.ZHANG Chao,LI Zhixiao,LI Pengshan,et al. Urban rural land use plan monitoring based on high spatial resolution remote sensing imagery classification[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(11):323-329.(in Chinese)
[127]朱永森,曾永年,张猛.基于HJ卫星数据与面向对象分类的土地利用/覆盖信息提取[J].农业工程学报,2017,33(14):258-265.ZHU Yongsen,ZENG Yongnian,ZHANG Meng. Extract of land use/cover information based on HJ satellites data and objectoriented classification[J]. Transactions of the CSAE,2017,33(14):258-265.(in Chinese)
[128]孙中平,白金婷,史园莉,等.基于高分影像的面向对象土地利用变化检测方法研究[J/OL].农业机械学报,2015,46(增刊):297-303. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=2015S047&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. S0. 047.SUN Zhongping,BAI Jinting,SHI Yuanli,et al. Object-oriented detection of land use changes based on high spatial resolution remote sensing image[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(Supp.):297-303.(in Chinese)
[129]杜子涛,杨小明,颜树强,等.奈曼旗土地退化遥感监测研究[J].农业工程学报,2012,28(3):154-161.DU Zitao,YANG Xiaoming,YAN Shuqiang,et al. Study on land degradation monitoring in Naiman county using remote sensing[J]. Transactions of the CSAE,2012,28(3):154-161.(in Chinese)
[130]薛剑,郧文聚,杜国明,等.基于遥感的现代与传统农业区域土地利用格局差异分析[J].农业工程学报,2012,28(24):245-251.XUE Jian,YUN Wenju,DU Guoming,et al. Difference analysis of land use patterns in modern and traditional agricultural region based on remote sensing[J]. Transactions of the CSAE,2012,28(24):245-251.(in Chinese)
[131] YAO X,ZHU D,YE S,et al. A field survey system for land consolidation based on 3S and speech recognition technology[J]. Computers&Electronics in Agriculture,2016,127:659-668.
[132]南锋,朱洪芬,毕如田.黄土高原煤矿区复垦农田土壤有机质含量的高光谱预测[J].中国农业科学,2016,49(11):2126-2135.NAN Feng,ZHU Hongfen,BI Rutian. Hyperspectral prediction of soil organic matter content in the reclamation cropland of coal mining areas in the Loess Plateau[J]. Scientia Agricultura Sinica,2016,49(11):2126-2135.(in Chinese)
[133]郭旭东,苏亚丽,吴长江,等.耕地暴雨灾情动态信息的遥感提取[J].地理空间信息,2018,16(3):57-60.GUO Xudong,SU Yali,WU Changjiang,et al. Remote sensing extraction for dynamic information of farmland storms[J].Geospatial Information,2018,16(3):57-60.(in Chinese)
[134]贾文涛,刘昊博,陈正.土地整治综合监管技术体系研究[C]∥中国土地学会年会,杭州,2013.JIA Wentao,LIU Haobo,CHEN Zheng. Research on comprehensive supervision technology system for land remediation[C]∥Annual Meeting of China Land Society,Hangzhou,2013.(in Chinese)
[135]陈元鹏,周旭.浅议遥感技术在土地复垦监测中的应用[J].中国土地,2017(7):35-37.CHEN Yuanpeng,ZHOU Xu. Discussion on the application of remote sensing technology in land reclamation monitoring[J].China Land,2017(7):35-37.(in Chinese)
[136] HALOUNOVL. Reclamation areas and their development studied by vegetation indices[J]. International Journal of Digital Earth,2008,1(1):155-164.
[137] EL-KAWY O R A,RD J K,ISMAIL H A,et al. Land use and land cover change detection in the western Nile delta of Egypt using remote sensing data[J]. Applied Geography,2011,31(2):483-494.
[138] ERENER A. Remote sensing of vegetation health for reclaimed areas of Seyit9mer open cast coal mine[J]. International Journal of Coal Geology,2011,86(1):20-26.
[139] SEN S,ZIPPER C E,WYNNE R H,et al. Identifying revegetated mines as disturbance/recovery trajectories using an interannual landsat chronosequence[J]. Photogrammetric Engineering&Remote Sensing,2015,78(3):223-235.
[140] CHASMER L,BAKER T,CAREY S K,et al. Monitoring ecosystem reclamation recovery using optical remote sensing:Comparison with field measurements and eddy covariance[J]. Brain Dev,2018(642):436-446.
[141] EVELYNE T,KARA W,BENOIT L,et al. Biophysical indicators based on spatial hierarchy for informing land reclamation:the case of the Lower Athabasca Rive(r Alberta,Canada)[J]. Ecological Indicators,2016(72):173-184.
[142]苏伟,孙中平,李道亮,等.基于多时相Landsat遥感影像的海州露天煤矿排土场植被时空特征分析[J].生态学报,2008,29(11):5860-5868.SU Wei,SUN Zhongping,LI Daoliang,et al. Monitoring of temporal and spatial change of vegetation in waste dump of Haizhou opencast coal mine area using multi-temporal Landsat remote[J]. Acta Ecologica Sinica,2008,29(11):5860-5868.(in Chinese)
[143]黄元仿,张世文,张立平,等.露天煤矿土地复垦生物多样性保护与恢复研究进展[J/OL].农业机械学报,2015,46(8):72-82. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20150812&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. 08. 012.HUANG Yuanfang,ZHANG Shiwen,ZHANG Liping,et al. Research progress on conservation and restoration of biodiversity in land reclamation of opencast coal mine[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(8):72-82.(in Chinese)
[144]张耀,周伟.利用多时相遥感影像动态监测矿区植被覆盖变化——以山西省平朔露天煤矿为例[J].西北林学院学报,2016,31(4):206-212.ZHANG Yao,ZHOU Wei. Dynamic monitoring of vegetation cover change in mining areas using multi-temporal remote sensing images:a case study of Pingyu Open-pit Coal Mine in Shanxi Province[J]. Journal of Northwest Forestry University,2016,31(4):206-212.(in Chinese)
[145]寇晓蓉,白中科,杜振州,等.黄土区大型露天煤矿企业土地复垦质量控制研究[J].农业环境科学学报,2017,36(5):957-965.KOU Xiaorong,BAI Zhongke,DU Zhenzhou,et al. Land reclamation quality completion standards for large opencast coal mine enterprises in Loess areas[J]. Journal of Agro-Environment Science,2017,36(5):957-965.(in Chinese)
[146] TAN Kun,YE Yuanyuan,DU Peijun,et al. Estimation of heavy metal concentrations in reclaimed mining soils using reflectance spectroscopy[J]. Spectroscopy and Spectral Analysis,2014,34(12):3317-3322.
[147]张秋霞,张合兵,刘文锴,等.高标准基本农田建设区域土壤重金属含量的高光谱反演[J].农业工程学报,2017,33(12):230-239.ZHANG Qiuxia,ZHANG Hebing,LIU Wenkai,et al. Inversion of heavy metals content with hyperspectral reflectance in soil of well-facilitied capital farmland construction areas[J]. Transactions of the CSAE,2017,33(12):230-239.(in Chinese)
[148]安志宏,程玉书,汪宝存,等.辽源市矿山地质环境恢复治理遥感监测与整治模式一体化研究[J].地质力学学报,2017,23(4):631-637.AN Zhihong,CHENG Yushu,WANG Baocun,et al. A study on the integration of remote sensing monitoring and regulation model in restoration and treatment of mine geological environment in Liaoyuan[J]. Journal of Geomechanics,2017,23(4):631-637.(in Chinese)
[149]叶宝莹,白中科,包妮沙.矿区土地复垦遥感动态监测体系构建[C]∥纪念中国农业工程学会成立30周年暨中国农业工程学会2009年学术年会,晋中,2009.YE Baoying,BAI Zhongke,BAO Nisha. Construction of remote sensing dynamic monitoring system for land reclamation in mining area[C]∥Commemorating the 30th Anniversary of China Agricultural Engineering Society and the 2009 Annual Conference of China Agricultural Engineering Society,Jinzhong,2009.(in Chinese)
[150]于凤荣,杜国明,薛剑,等.黑龙江省垦区大豆和玉米重迎茬遥感监测研究——以友谊农场为例[J].农业现代化研究,2013,34(2):248-252.YU Fengrong,DU Guoming,XUE Jian,et al. A remote sensing monitoring research on continuous and alternate cropping of soybeans and corn in Heilongjiang Reclamation Region with friendship farm as an example[J]. Research of Agricultural Modernization,2013,34(2):248-252.(in Chinese)
[151]吴年新.遥感技术在盐碱地整治规划中的应用[J].城市地理,2015(14):258.WU Nianxin. Application of remote sensing technology in salt and alkali land remediation planning[J]. City Geography,2015(14):258.(in Chinese)
[152]厉彦玲,赵庚星,常春艳,等. OLI与HSI影像融合的土壤盐分反演模型[J].农业工程学报,2017,33(21):173-180.LI Yanling,ZHAO Gengxing,CHANG Chunyan,et al. Soil salinity retrieval model based on OLI and HSI image fusion[J].Transactions of the CSAE,2017,33(21):173-180.(in Chinese)
[153]侯大伟,刘艳,孙华.退耕还林背景下寒地山区土地生态安全格局动态变化[J].农业工程学报,2017,33(18):267-276.HOU Dawei,LIU Yan,SUN Hua. Analysis on dynamic change of ecological security pattern of land in cold mountainous region under background of grain for green project[J]. Transactions of the CSAE,2017,33(18):267-276.(in Chinese)
[154]海文静,刘学录,任君.土地整治中新增耕地认定及有效耕地面积测算[J].云南农业大学学报(自然科学版),2018,33(3):539-546.HAI Wenjing,LIU Xuelu,REN Jun. Identification of newly cultivated land and estimation of effective cultivated land area in land remediation[J]. Journal of Yunnan Agricultural University(Natural Science),2018,33(3):539-546.(in Chinese)
[155] BENZA M,WEEKS J R,STOW D A,et al. A pattern-based definition of urban context using remote sensing and GIS[J].Remote Sensing of Environment,2016,183:250-264.
[156]邹亚锋,吕昌河,白臻昊,等.不同整治模式下的农村居民点整治潜力测算[J].国土资源遥感,2016,28(4):191-196.ZOU Yafeng,LChanghe,BAI Zhenhao,et al. Calculation of land consolidation potential of rural residential land on different models of land consolidation[J]. Remote Sensing for Land&Resources,2016,28(4):191-196.(in Chinese)
[157]屠爽爽,龙花楼,刘永强,等.农村居民点整治潜力测算方法研究进展与展望[J].自然资源学报,2015,30(11):1956-1968.TU Shuangshuang,LONG Hualou,LIU Yongqiang,et al. Research progress and prospects of rural residential remediation potential measurement methods[J]. Journal of Natural Resources,2015,30(11):1956-1968.(in Chinese)
[158]宋伟,陈百明,姜广辉.中国农村居民点整理潜力研究综述[J].经济地理,2010,30(11):1871-1877.SONG Wei,CHEN Baiming,JIANG Guanghui. A review of the research on the potential of rural settlements in China[J].Economic Geography,2010,30(11):1871-1877.(in Chinese)
[159]朱晓华,陈秧分,刘彦随,等.空心村土地整治潜力调查与评价技术方法——以山东省禹城市为例[J].地理学报,2010,65(6):736-744.ZHU Xiaohua,CHEN Yangfen,LIU Yansui,et al. Technique and method of rural land consolidation potential investigation and assessment:a case study of Yucheng City,Shandong Province[J]. Acta Geographica Sinica,2010,65(6):736-744.(in Chinese)
[160] YAN J,XIA F,BAO H X H. Strategic planning framework for land consolidation in China:a top-level design based on SWOT analysis[J]. Habitat International,2015,48:46-54.
[161]姚维岭,荆青青,周英杰,等.基于遥感动态监测的山东省矿山地质环境恢复治理典型模式分析[J].矿产勘查,2015,6(5):627-634.YAO Weiling,JING Qingqing,ZHOU Yingjie,et al. Analysis on typical pattern of mine geological environment restoration and governance based on remote sensing dynamic monitoring in Shandong[J]. Mineral Exploration,2015,6(5):627-634.(in Chinese)
[162] WU K,SHAN L,JING W,et al. Developing a planning model for the construction of ecological corridors for low-carbon ecological cities:a case study of the Shenzhen International Low-Carbon City[J]. Adv. Mater. Res.,2013,841:2823-2829.
[163] CHENG L,XIA N,JIANG P,et al. Analysis of farmland fragmentation in China Modernization Demonstration Zone since“reform and openness”:a case study of South Jiangsu Province[J]. Sci. Rep.,2015,5:11797.
[164]徐秀云,陈向,刘宝梅.微型无人机助力土地整治项目监管[J].测绘通报,2017(3):86-90.XU Xiuyun,CHEN Xiang,LIU Baomei. Supervision of land renovation project by micro-UAV[J]. Bulletin of Surveying and Mapping,2017(3):86-90.(in Chinese)
[165]马能,黄义忠,尹红梅.基于遥感与地理信息系统的石漠化发育区土地整治适宜性评价[J].浙江农业科学,2018,59(8):1464-1468.MA Neng,HUANG Yizhong,YIN Hongmei. Suitability evaluation of land rehabilitation in rocky desertification development area based on remote sensing and geographic information system[J]. Zhejiang Agricultural Sciences,2018,59(8):1464-1468.(in Chinese)
[166]常青,刘丹,刘晓文.矿业城市土地损毁生态风险评价与空间防范策略[J].农业工程学报,2013,29(20):245-254.CHANG Qing,LIU Dan,LIU Xiaowen. Ecological risk assessment and spatial prevention tactic of land destruction in mining city[J]. Transactions of the CSAE,2013,29(20):245-254.(in Chinese)
[167]冯秀丽,王珂,施拥军,等.基于遥感的土地整理研究[J].科技通报,2006,22(2):258-262.FENG Xiuli,WANG Ke,SHI Yongjun,et al. Land consolidation study based on RS[J]. Bulletin of Science and Technology,2006,22(2):258-262.(in Chinese)
[168]张超,蒋一军,罗明,等.土地整理遥感监测系统的设计与实现[J].地理信息世界,2009,7(2):72-77.ZHANG Chao,JIANG Yijun,LUO Ming,et al. Design and development of land consolidation remote sensing monitoring system[J]. Geomatics World,2009,7(2):72-77.(in Chinese)
[169]李少帅,郧文聚,曹文静,等.基于田块尺度的高标准农田建设空间形态判别研究[J/OL].农业机械学报,2018,49(7):112-118. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180714&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 07. 014.LI Shaoshuai,YUN Wenju,CAO Wenjing,et al. Spatial morphology identification of well-facilitated farmland construction based on patch scale[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(7):112-118.(in Chinese)
[170] LENNEY M P,WOODCOCK C E,COLLINS J B,et al. The status of agricultural lands in Egypt:the use of multi temporal NDVI features derived from Landsat TM[J]. Remote Sensing Environment,1996(56):8-20.
[171]韩文霆,张立元,张海鑫,等.基于无人机遥感与面向对象法的田间渠系分布信息提取[J/OL].农业机械学报,2017,48(3):205-214. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170326&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2017. 03. 026.HAN Wenting,ZHANG Liyuan,ZHANG Haixin,et al. Extraction method of sublateral canal distribution information based on UAV remote sensing[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):205-214.(in Chinese)
[172]张超,王志浩,杨建宇,等.基于Canny算子的农田线状工程地物自动提取方法[J/OL].农业机械学报,2015,46(2):270-275. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20150239&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2015. 02. 039.ZHANG Chao,WANG Zhihao,YANG Jianyu,et al. Farmland linear project feature auto-extraction method based on Canny algorithm[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(2):270-275.(in Chinese)
[173]顾呈剑.无人机航测技术辅助土地整治项目规划设计和监管研究[D].南昌:江西财经大学,2016.GU Chengjian. Planning,design and supervision of UAV aerial survey technology aided land remediation project[D].Nanchang:Jiangxi University of Finance and Economics,2016.(in Chinese)
[174] DENG X,HUANG J,ROZELLE S,et al. Cultivated land conversion and potential agricultural productivity in China[J].Land-use Policy,2006,23(4):372-384.
[175] GAO X,WU K N,CHEN X Z,et al. Feasible potential of cultivated land quality promoted by land consolidation project[J].Transactions of the CSAE,2016,32(16):233-240.
[176] LUO M F,ZHAO C W. Comparison of the cultivated land quality before and after the land consolidation:a case study of Guanling Autonomous County[J]. Chinese Journal of Agricultural Resources and Regional Planning,2013,34(6):127-131.
[177] SONG W,LIU M L. Farmland conversion decreases regional and national land quality in China[J]. Land Degrad. Dev.,2016,28(2):459-471.
[178]洪长桥,金晓斌,陈昌春,等.基于多源遥感数据融合的土地整治区产能动态监测:方法与案例[J].地理研究,2017,36(9):1787-1800.HONG Changqiao,JIN Xiaobin,CHEN Changchun,et al. Dynamically monitoring productivity of cultivated land enrolled in land consolidation programs based on fusing multi-source remote sensing data:methodology and a case study[J].Geographical Research,2017,36(9):1787-1800.(in Chinese)
[179] LOBELL D B. The use of satellite data for crop yield gap analysis[J]. Field Crops Res.,2013,143(SI):56-64.
[180] JIN X,SHAO Y,ZHANG Z,et al. The evaluation of land consolidation policy in improving agricultural productivity in China[J]. Scientific Reports,2017,7(1):2792.
[181] DU X,ZHANG X,JIN X. Assessing the effectiveness of land consolidation for improving agricultural productivity in China[J]. Land Use Policy the International Journal Covering All Aspects of Land Use,2018,70:360-367.
[182]张兵,崔希民,赵彦博,等.基于High-1卫星影像的土地整治遥感监测方法研究与实践[J].农业工程学报,2015,31(20):225-233.ZHANG Bing,CUI Ximin,ZHAO Yanbo,et al. Method and application of remote sensing monitoring in land consolidation based on High-1 satellite image[J]. Transactions of the CSAE,2015,31(20):225-233.(in Chinese)
[183]张超,刘佳佳,陈英义,等.土地整治区田块空间形态变化遥感监测与评价[J/OL].农业机械学报,2017,48(1):104-111. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170114&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2017. 01. 014.ZHANG Chao,LIU Jiajia,CHEN Yingyi,et al. Remote sensing monitor and evaluation on patch morphology changing in land consolidation areas[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(1):104-111.(in Chinese)
[184]吕雅慧,张超,郧文聚,等.高分辨率遥感影像农田林网自动识别[J/OL].农业机械学报,2018,49(1):157-163.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180120&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2018. 01. 020.LYahui,ZHANG Chao,YUN Wenju,et al. Automatic recognition of farmland shelterbelts in high spatial resolution remote sensing data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(1):157-163.(in Chinese)
[185]韩已文,刘忠,于学谦,等.沙化土地整治背景下的沙漠化监测预警[J].农业工程学报,2017,33(10):271-277.HAN Yiwen,LIU Zhong,YU Xueqian,et al. Desertification monitoring and early warning under the background of desertification land improvement[J]. Transactions of the CSAE,2017,33(10):271-277.(in Chinese)
[186]张寅玲,白中科,陈晓辉,等.基于遥感技术的露天矿区土地复垦效益评价[J].中国矿业,2014(6):71-75.ZHANG Yuling,BAI Zhongke,CHEN Xiaohui,et al. Benefit evaluation of land reclamation in open-pit mining area based on remote sensing technology[J]. China Mining Magazine,2014(6):71-75.(in Chinese)
[2] TILMAN D,CASSMAN K G,MATSON P A,et al. Agricultural sustainability and intensive production practices[J]. Nature,2002,418(6898):671-677.
[3] HEERINK N,QU F,KUIPER M,et al. Policy reforms,rice production and sustainable land-use in China:a macro-micro analysis[J]. Agric. Syst.,2007,94(3):784-800.
[4] JIANG G,WANG X,YUN W,et al. A new system will lead to an optimal path of land consolidation spatial management in China[J]. Land Use Policy,2015,42(42):27-37.
[5] SETO K C,KAUFMANN R K,WOODCOCK C E. Landsat reveals China's farmland reserves,but they're vanishing fast[J].Nature,2000,406(6792):121.
[6] ZHAO W Z,XIAO H L,LIU Z M,et al. Soil degradation and restoration as affected by land-use change in the semiarid Bashang Area,Northern China[J]. Catena,2005,59(2):173-186.
[7] TAN M,LI X,XIE H,et al. Urban land expansion and arable land loss in China:a case study of Beijing-Tianjin-Hebei region[J]. Land-use Policy,2005,22(3):187-196.
[8] GAO J,LIU Y. Determination of land degradation causes in Tongyu County,Northeast China via land cover change detection[J]. Int. J. Appl. Earth Observ. Geoinform.,2010,12(1):9-16.
[9] WANG J,CHEN Y Q,SHAO X M,et al. Land-use changes and policy dimension driving forces in China:present,trend and future[J]. Land-use Policy,2012,29(4):737-749.
[10]郧文聚,高璐璐,张超,等.从生态文明视角看我国土地利用的变化及影响[J].环境保护,2018,46(20):31-35.YUN Wenju,GAO Lulu,ZHANG Chao,et al. The change and influence of land use in China from the perspective of ecological civilization[J]. Environmental Protection,2018,46(20):31-35.(in Chinese)
[11]郧文聚,杨晓艳,石英.土地整理概念的科学界定[J].资源与产业,2008,10(5):1-2.YUN Wenju,YANG Xiaoyan,SHI Ying. Scientific definition of land consolidation concept[J]. Resources&Industries,2008,10(5):1-2.(in Chinese)
[12]李北方,胡如忠,张曾祥.遥感技术为国土资源调查开辟广阔前景[J].遥感信息,1986(4):7-8.LI Beifang,HU Ruzhong,ZHANG Zengxiang. Remote sensing technology opens up broad prospects for land and resources survey[J]. Remote Sensing Information,1986(4):7-8.(in Chinese)
[13]李少帅.“天眼”看整治——对土地整治遥感监测工作的思考[J].中国土地,2014(11):45-46.LI Shaoshuai.“Tianyan”seeing renovation—thinking on remote sensing monitoring of land remediation[J]. China Land,2014(11):45-46.(in Chinese)
[14]张超,乔敏,郧文聚,等.耕地数量、质量、生态三位一体综合监管体系研究[J/OL].农业机械学报,2017,48(1):1-6. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170101&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2017. 01. 001.ZHANG Chao,QIAO Min,YUN Wenju,et al. Trinity comprehensive regulatory system about quantity,quality and ecology of cultivated land[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(1):1-6.(in Chinese)
[15]张文博.无人机航测技术在土地综合整治中的应用研究[D].长沙:长沙理工大学,2013.ZHANG Wenbo. Application of aerial survey technology of drones in comprehensive land improvement[D]. Changsha:Changsha University of Science and Technology,2013.(in Chinese)
[16]邵金强,罗斐. 3S技术在土地综合整治项目中的应用探讨[J].科技信息,2014(8):163.SHAO Jinqiang,LUO Fei. Application of 3S technology in land comprehensive improvement project[J]. Science and Technology Information,2014(8):163.(in Chinese)
[17] ZHANG Q Q,LUO H B,YAN J M. Integrating biodiversity conservation into land consolidation in hilly areas—a case study in southwest China[J]. Acta Ecologica Sinica,2012,32(6):274-278.
[18]孟宪素,李少帅.遥感技术在土地整理复垦开发项目监管工作中的应用实践[J].资源与产业,2009,11(2):66-70.MENG Xiansu,LI Shaoshuai. Application of remote sensing technology in the supervision of land consolidation and reclamation development projects[J]. Resources&Industries,2009,11(2):66-70.(in Chinese)
[19]胡振琪,梁宇生,巩玉玲,等. 2016年土地科学研究重点进展评述及2017年展望——土地工程与技术分报告[J].中国土地科学,2017(3):70-79.HU Zhenqi,LIANG Yusheng,GONG Yuling,et al. Review of the key progress of land science research in 2016 and the outlook for 2017—land engineering and technology sub-reports[J]. China Land Science,2017(3):70-79.(in Chinese)
[20]张晓燕.关于加快推进土地整治科技创新的思考[J].中国土地,2017(3):20-22.ZHANG Xiaoyan. Thoughts on accelerating the scientific and technological innovation of land consolidation[J]. China Land,2017(3):20-22.(in Chinese)
[21]谭少军,邵景安.基于生态适宜性评价的西南丘陵区土地整治工程布局研究[J].地理研究,2018,37(4):659-677.TAN Shaojun,SHAO Jingan. Research on the layout of land consolidation engineering in southwest hilly area based on ecological suitability evaluation[J]. Geographical Research,2018,37(4):659-677.(in Chinese)
[22] SUSH Q,LIN B S,ZENG X T. The environmental protection problem and its solution in land consolidation project[J]. The Ecological Environment,2006,15(4):881-884.
[23]戴建清.基于遥感的土地整理评价可行性研究[J].城市勘测,2007(2):47-48.DAI Jianqing. Feasibility study of land consolidation evaluation based on remote sensing[J]. Urban Survey,2007(2):47-48.(in Chinese)
[24] LU Y,JENKINS A,FERRIER R C,et al. Addressing China's grand challenge of achieving food security while ensuring environmental sustainability[J]. Science Advances,2015,1(1):e1400039.
[25] CRECENTE R,ALVAREZ C,FRA U. Economic,social and environmental impact of land consolidation in Galicia[J]. Landuse Policy,2002,19(2):135-147.
[26] BRINK A V D. Land consolidation and the emergence of the metropolitan landscape[J]. Modern Land Consolidation,2004:89-98.
[27] VAN D M P,LEMMEN C,UIMONEN M. Modern land consolidation:multipurpose approach for sustainable development[J].GIM International,2005,19(1):51-53.
[28] MIRANDA D,CRECENTE R,ALVAREZ M F. Land consolidation in inland rural Galicia,NW Spain,since 1950:an example of the formulation and use of questions,criteria and indicators for evaluation of rural development policies[J]. Landuse Policy,2006,23(4):511-520.
[29] CAY T,AYTEN T,ISCAN F. Effects of different land reallocation models on the success of land consolidation projects:social and economic approaches[J]. Land-use Policy,2010,27(2):262-269.
[30] PASAKARNIS G,MORLEY D,MALIENE V. Rural development and challenges establishing sustainable land-use in Eastern European countries[J]. Land-use Policy,2013,30(1):703-710.
[31]蔡朕.西南丘陵山区生态化土地整治规划设计研究[D].重庆:西南大学,2014.CAI Zhen. Research on the planning and design of ecological land remediation in Southwest Hilly Areas[D]. Chongqing:Southwest University,2014.(in Chinese)
[32] PASAKARNIS G,MALIENE V. Towards sustainable rural development in Central and Eastern Europe:applying land consolidation[J]. Land-use Policy,2010,27(2):545-549.
[33]夏方舟,杨雨濛,严金明.中国国土综合整治近40年内涵研究综述:阶段演进与发展变化[J].中国土地科学,2018,32(5):78-85.XIA Fangzhou,YANG Yumeng,YAN Jinming. The connotation research review on integrated territory consolidation of China in recent four decades:staged evolution and developmental transformation[J]. China Land Sciences,2018,32(5):78-85.(in Chinese)
[34]赖云,祁琼.无人机航测在土地整治项目核查验收中的应用[J].地理空间信息,2014(5):20-22.LAI Yun,QI Qiong. Application of UAV aerial survey in verification and acceptance of land remediation projects[J].Geospatial Information,2014(5):20-22.(in Chinese)
[35]胡振琪,陈涛.基于ERDAS的矿区植被覆盖度遥感信息提取研究——以陕西省榆林市神府煤矿区为例[J].西北林学院学报,2008,23(2):164-167,183.HU Zhenqi,CHEN Tao. Remote sensing information extraction of vegetation coverage based on ERDAS—taking Shenfu Coal Mine Area of Yulin City,Shaanxi Province as an example[J]. Journal of Northwest Forestry University,2008,23(2):164-167,183.(in Chinese)
[36]韩周炳,何龙飞.无人机航摄技术在土地整治项目中的应用[J].智能城市,2018,14(6):900-901.HAN Zhoubing,HE Longfei. Application of UAV aerial photography technology in land remediation projects[J]. Smart City,2018,14(6):900-901.(in Chinese)
[37]顾振伟,张超,杨建宇,等.基于高分辨率遥感影像的灌排沟渠提取方法[J].农业工程,2014,4(3):64-67.GU Zhenwei,ZHANG Chao,YANG Jianyu,et al. Extraction method of irrigation and drainage ditch based on high resolution remote sensing image[J]. Agriculture Engineering,2014,4(3):64-67.(in Chinese)
[38]孙小芳.结合目标分割的高光谱城市地物分类[J].国土资源遥感,2017,29(3):171-175.SUN Xiaofang. Classification of hyperspectral urban land objects based on target segmentation[J]. Remote Sensing for Land and Resources,2017,29(3):171-175.(in Chinese)
[39]王宏胜,李永树,吴玺,等.结合空间分析的面向对象无人机影像土地利用分类[J].测绘工程,2018(2):57-61.WANG Hongsheng,LI Yongshu,WU Xi,et al. Land use classification of object-oriented UAV image based on spatial analysis[J]. Surveying and Mapping Engineering,2018(2):57-61.(in Chinese)
[40]孙斌.退化土地遥感识别与评价技术研究[D].北京:中国林业科学研究院,2016.SUN Bin. Research on remote sensing identification and evaluation technology of degraded land[D]. Beijing:Chinese Academy of Forestry,2016.(in Chinese)
[41]杜国明,李昀,于凤荣,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.DU Guoming,LI Yun,YU Fengrong,et al. Change characteristics analysis of farmland in Northern Sanjiang Plain in 2000—2009 based on remote sensing[J]. Transactions of the CSAE,2012,28(1):225-229.(in Chinese)
[42]王启亮.彩红外遥感技术在崇明县土利用现状调查中的应用[J].运城高专学报,2000,18(6):29-30.WANG Qiliang. Application of color infrared remote sensing technology in the survey of soil use status in Chongming County[J]. Journal of Yuncheng College of Technology,2000,18(6):29-30.(in Chinese)
[43]林珲.二滩电站建设中水库淹没损失的遥感估算[J].资源科学,1984,6(4):66-74.LIN Hui. Remote sensing estimation of reservoir inundation loss in the construction of Ertan Hydropower Station[J]. Resources Science,1984,6(4):66-74.(in Chinese)
[44]花东文,韩霁昌,张扬,等.基于探地雷达方法的新增耕地土层厚度估测——以南泥湾土地整治项目为例[J].西部大开发(土地开发工程研究),2016(1):36-41.HUA Dongwen,HAN Jichang,ZHANG Yang,et al. Estimation of new cultivated soil thickness based on ground penetrating radar method—taking Nanniwan land improvement project as an example[J]. West Development(Land Development Engineering Research),2016(1):36-41.(in Chinese)
[45]王旭辉.遥感技术及在城市国土规划中的应用[J].上海国土资源,2014,35(1):88-91.WANG Xuhui. Remote sensing technology and its application in urban land planning[J]. Shanghai Land Resources,2014,35(1):88-91.(in Chinese)
[46] PITAS I,VENETSANOPOULOS A N. Nonlinear digital filters:principles and applications[M]. Boston,MA:Kluwer,1990.
[47] GONZALES R C,WOODS R E. Digital image processing[M]. Addison·Wesley,1992.
[48] KO S J,LEE Y H. Center weighted median filters and their applications to image enhancement[J]. IEEE Transactions on Circuits and Systems,1991,38(9):984-993.
[49] LEE Y H,KASSAM S A. Generalized median filtering and related nonlinear filtering techniques[J]. IEEE Transactions on Acoustics,Speech and Signal Processing,1985,33(3):672-283.
[50] BROWNRIGG D R K. Generation of representative members of a Rr Sst weighted median filter class[J]. IEE Proceedings Part E Communications,Radar and Signal Processing,1986,33(5):445-448.
[51] LIN H,WILLSON A N. Median filter with adaptive length[J]. IEEE Transactions on Circuits and Systems,1988,35(6):675-690.
[52] SUN T,NEUVO Y. Detail-preserving median based filters in image processing[J]. Pattern Recognition Letters,1994,15(3):341-347.
[53] ABREU E,LIGHTSTONE M,MITR S K,et al. A new efficient approach for the removal of impulse noise from highly corrupted images[J]. IEEE Transactions on Image Processing,1996,5(6):1012-1025.
[54] HWANG H,HADDAD R A. Adaptive median filter:new algorithms and results[J]. IEEE Transactions on Image Processing,1995,4(4):499-502.
[55]李树涛.多传感器影像信息融合方法与应用研究[D].长沙:湖南大学,2001.LI Shutao. Multi-sensor image information fusion method and application research[D]. Changsha:Hunan University,2001.(in Chinese)
[56] STARCK J L,DONOHO D L,CANDS E J. Very high quality image restoration by combining wavelets and Curvelets[J].Proc of SPIE,2001,4478:9-19.
[57] ESLAMI R,RADHA H. New image transforms using hybrid wavelets and directional filter banks:analysis and design[J].Proc of IEEE Int Conf Image Processing,2005(1):733-736.
[58] XIE Z. Image registration using hierarchical B-Splines[D]. USA Arizona State University,2002.
[59] HANAIZUMI H,FUJIURA S. An automated method for registration of satellite remote sensing images[C]∥Proceedings of the International Geoscience and Remote Sensing Symposium IGARSS'93,1993:1348-1350.
[60] WONG A,CLAUSI D A. ARRSI:automatic registration of remote-sensing images[J]. IEEE Trans. on GRS,2007,45(5):1483-1493.
[61] RANDRIANARISOA V,YANG X J,SHENG Y,et al. Robust automatic ground image feature extraction for multisensor image registration[J]. Proceedings of SPIE-The International Society for Optical Engineering,2001,4385:129-139.
[62]裴璐乾. SAR、红外、可见光影像配准及融合算法研究[D].西安:西安电子科技大学,2011.PEI Luqian. Research on SAR,infrared,visible image registration and fusion algorithm[D]. Xian:Xidian University,2011.(in Chinese)
[63]陈洁.红外与可见光影像融合算法研究[D].武汉:华中科技大学,2013.CHEN Jie. Research on infrared and visible image fusion algorithm[D]. Wuhan:Huazhong University of Science and Technology,2013.(in Chinese)
[64]张倩,张荣,刘政凯.基于相似性度量的高分辨率SAR影像无监督分割[J].中国科学技术大学学报,2010,40(2):123-128.ZHANG Qian,ZHANG Rong,LIU Zhengkai. Unsupervised segmentation of high resolution SAR images based on similarity measures[J]. Journal of University of Science and Technology of China,2010,40(2):123-128.(in Chinese)
[65]姚为,韩敏.热红外与多光谱遥感影像的神经网络回归融合方法研究[J].中国影像图形学报,2010,15(8):1278-1284.YAO Wei,HAN Min. Research on neural network regression fusion method of thermal infrared and multi-spectral remote sensing images[J]. Journal of Image and Graphics,2010,15(8):1278-1284.(in Chinese)
[66]韩玲,吴汉宁,杜子涛.多源遥感影像数据融合方法在地学中的应用[J].地球科学与环境学报,2005,27(3):78-81.HAN Ling,WU Hanning,DU Zitao. Application of multi-source remote sensing image data fusion method in geosciences[J].Journal of Earth Sciences and Environment,2005,27(3):78-81.(in Chinese)
[67]衢霖,邵芸,范湘涛.雷达遥感的地学应用及其进展[J].遥感技术与应用,2002,17(5):269-275.QU Lin,SHAO Yun,FAN Xiangtao. Geoscience application of radar remote sensing and its progress[J]. Remote Sensing Technology and Application,2002,17(5):269-275.(in Chinese)
[68] POHL C,VAN-GENDEREN J L. Multisensor image fusion in remote sensing concepts,methods,and applications[J].International Journal of Remote Sensing,1998,19(5):823-854.
[69]高文涛,汪小钦,凌飞龙.基于纹理的雷达与多光谱遥感数据小波融合研究[J].中国图象图形学报,2008,13(7):1341-1347.GAO Wentao,WANG Xiaoqin,LING Feilong. Wavelet fusion research of texture-based radar and multi-spectral remote sensing data[J]. Journal of Image and Graphics,2008,13(7):1341-1347.(in Chinese)
[70]敬忠良,肖刚,李振华.影像融合:理论与应用[M].北京:高等教育出版社,2007.
[71] BUTT P J,ADELSON E H. Merging images through pattem decomposition[J]. Proceedings of SPIE,1985,575:173-182.
[72] NASON G P,SILVERMAN B W. The stationary wavelet transform and some statistical applications[J]. Wavelets and Statistics,1995.
[73] DONOHO D L. Wedgelet:nearly minimax estimation of edges[J]. The Annals of Statistics,1999,27(3):859-897.
[74] CUNHA A L D,ZHOU J P,DO M N. The nonsubsampled contourlet transform:theory,design,and applications[J]. IEEE Trans. on Image Processing,2006,15(10):3089-3101.
[75] WANG Z,MA Y. Medical image fusion using m-PCNN[J]. Information Fusion,2008,9(2):176-185.
[76] LI S T,SHAWE-TAYLOR J. Comparison and fusion of multiresolution features for texture classification[J]. Pattern Recognition Letter,2005,26(5):633-638.
[77]王宏,敬忠良,李建勋.多分辨率影像融合的研究与发展[J].控制理论与应用,2004,21(4):145-151.WANG Hong,JING Zhongliang,LI Jianxun. Research and development of multi-resolution image fusion[J]. Control Theory and Application,2004,21(4):145-151.(in Chinese)
[78]刘贵喜.多传感器影像融合方法研究[D].西安:西安电子科技大学,2001.LIU Guixi. Research on multi-sensor image fusion method[D]. Xi'an:Xi'an University of Electronic Science and Technology,2001.(in Chinese)
[79]徐青,邢帅,耿则勋,等.遥感影像融合与分辨率增强技术[M].北京:科学出版社,2007:68-84.
[80]贾永红.多源遥感影像数据融合技术[M].北京:测绘出版社,2005:4.
[81]钟庆新.多源遥感影像融合相关技术研究[D].长沙:中南大学,2009.ZHONG Qingxin. Research on multi-source remote sensing image fusion related technology[D]. Changsha:Central South University,2009.(in Chinese)
[82]乔玉良.黄土地区高中低产农田成因及遥感分类方法研究——以山西省定襄县为例[J].遥感学报,2002,6(1):70-74.QIAO Yuliang. Study on the genesis and remotely sensing classification method of high,central and low production in loess areas—a case study from Dianjing County,Shanxi Province[J]. Journal of Remote Sensing,2002,6(1):70-74.(in Chinese)
[83]张超,王纪华,赵春江,等.利用多时相遥感影像监测季节性裸露农田[J].农业工程学报,2005,21(11):90-94.ZHANG Chao,WANG Jihua,ZHAO Chunjiang,et al. Monitoring the Beijing naked cropland in winter and spring with multitemporal remotely sensed images[J]. Transactions of the CSAE,2005,21(11):90-94.(in Chinese)
[84]黄秋燕,肖鹏峰,冯学智,等.一种基于TV-Gabor模型的高分辨率遥感影像农田信息提取方法[J].遥感信息,2014,29(2):77-82.HUANG Qiuyan,XIAO Pengfeng,FENG Xuezhi,et al. A method of farmland information extraction based on TV-Gabor model for high resolution remote sensing image[J]. Remote Sensing Information,2014,29(2):77-82.(in Chinese)
[85]陈杰,陈铁桥,梅小明,等.基于最优尺度选择的高分辨率遥感影像丘陵农田提取[J].农业工程学报,2014,30(5):99-107.CHEN Jie,CHEN Tieqiao,MEI Xiaoming,et al. Hilly farmland extraction from high resolution remote sensing imagery based on optimal scale selection[J]. Transactions of the CSAE,2014,30(5):99-107.(in Chinese)
[86]江东,丁方宇,郝蒙蒙,等.农田遥感识别方法与应用[J].甘肃科学学报,2017,29(2):43-47.JIANG Dong,DING Fangyu,HAO Mengmeng,et al. Remote sensing identification method and application of farmland[J].Journal of Gansu Sciences,2017,29(2):43-47.(in Chinese)
[87]王洪,刘伟铭.深度信任支持向量回归的耕地面积预测方法[J].郑州大学学报(理学版),2016,48(1):121-126.WANG Hong,LIU Weiming. Cultivated area prediction method based on deep trust support vector regression[J]. Journal of Zhengzhou University(Natural Science Edition),2016,48(1):121-126.(in Chinese)
[88]鲁恒,付萧,贺一楠,等.基于迁移学习的无人机影像耕地信息提取方法[J/OL].农业机械学报,2015,46(12):274-279. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20151237&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2015. 12. 037.LU Heng,FU Xiao,HE Yinan,et al. Cultivated land information extraction from high resolution UAV images based on transfer learning[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(12):274-279.(in Chinese)
[89]王利军,郭燕,贺佳,等.基于决策树和SVM的Sentinel-2A影像作物提取方法[J/OL].农业机械学报,2018,49(9):146-153. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180917&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2018. 09. 017.WANG Lijun,GUO Yan,HE Jia,et al. Classification method by fusion of decision tree and SVM based on Sentinel-2A image[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(9):146-153.(in Chinese)
[90]郭东锋,闫宁,胡海洲,等.基于机器学习算法的烤烟香型分类研究[J].江西农业学报,2016,28(2):43-48.GUO Dongfeng,YAN Ning,HU Haizhou,et al. Classification of flue-cured tobacco flavor based on machine learning algorithm[J]. Journal of Jiangxi Agricultural University,2016,28(2):43-48.(in Chinese)
[91]闫利,江维薇.多光谱遥感影像植被覆盖分类研究进展[J].国土资源遥感,2016,28(2):8-13.YAN Li,JIANG Weiwei. Progress in vegetation coverage classification of multispectral remote sensing images[J]. Remote Sensing for Land and Resources,2016,28(2):8-13.(in Chinese)
[92]赵旦,张淼,于名召,等.汶川地震灾后农田和森林植被恢复遥感监测[J].遥感学报,2014,18(4):958-970.ZHAO Dan,ZHANG Miao,YU Mingzhao,et al. Remote sensing monitoring of farmland and forest vegetation restoration after Wenchuan earthquake[J]. Journal of Remote Sensing,2014,18(4):958-970.(in Chinese)
[93]刘旭升.基于人工神经网络的森林植被遥感分类研究[D].北京:北京林业大学,2004.LIU Xusheng. Remote sensing classification of forest vegetation based on artificial neural network[D]. Beijing:Beijing Forestry University,2004.(in Chinese)
[94]吴宗胜,傅卫平,韩改宁.基于深度卷积神经网络的道路场景理解[J].计算机工程与应用,2017,53(22):8-15.WU Zongsheng,FU Weiping,HAN Gaining. Road scene understanding based on deep convolutional neural network[J].Computer Engineering and Applications,2017,53(22):8-15.(in Chinese)
[95]乔贤哲,张超,杨建宇,等.高分辨率遥感影像中农田灌溉设施的提取[J].测绘通报,2012(增刊1):372-374.QIAO Xianzhe,ZHANG Chao,YANG Jianyu,et al. Extraction of farmland irrigation facilities in high resolution remote sensing imagery[J]. Bulletin of Surveying and Mapping,2012(Supp. 1):372-374.(in Chinese)
[96]段新成.基于BP人工神经网络的土地利用分类遥感研究[D].北京:中国地质大学(北京),2008.DUAN Xincheng. Remote sensing of land use classification based on BP artificial neural network[D]. Beijing:China University of Geosciences(Beijing),2008.(in Chinese)
[97]陈睿敏,孙胜利.基于深度学习的红外遥感信息自动提取[J].红外,2017,38(8):37-43.CHEN Ruimin,SUN Shengli. Automatic extraction of infrared remote sensing information based on deep learning[J].Infrared,2017,38(8):37-43.(in Chinese)
[98] MURTHY C S,RAJUPV,BADRINATH K V S. Classification of wheat crop with multi-temporal images:performance of maximum likelihood and artificial neural networks[J]. International Journal of Remote Sensing,2003,24(23):4871-4890.
[99]蓝晓丹.面向对象的SPOT5遥感影像多分类器森林分类研究[D].南宁:广西大学,2010.LAN Xiaodan. Multiple classier combination forest classification of SPOT5 remote sensing image based on object-oriented approach[D]. Nanning:Guangxi University,2010.(in Chinese)
[100]白穆,刘慧平,乔瑜,等.高分辨率遥感影像分类方法在LUCC中的研究进展[J].国土资源遥感,2010(1):19-23.BAI Mu,LIU Huiping,QIAO Yu,et al. Research progress of high resolution remote sensing image classification method in LUCC[J]. Remote Sensing for Land and Resources,2010(1):19-23.(in Chinese)
[101]陈秋晓,骆剑承,周成虎,等.基于多特征的遥感影像分类方法[J].遥感学报,2004,8(3):239-245.CHEN Qiuxiao,LUO Jiancheng,ZHOU Chenghu,et al. Classification of remotely sensed imagery using multi-features based approach[J]. Journal of Remote Sensing,2004,8(3):239-245.(in Chinese)
[102]吕雅慧,郧文聚,张超,等.基于TOPSIS和BP神经网络的高标准农田综合识别[J/OL].农业机械学报,2018,49(3):196-204. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180324&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 03. 024.LYahui,YUN Wenju,ZHANG Chao,et al. Multi-characteristic comprehensive recognition of well-facilitied farmland based on TOPSIS and BP neural network[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(3):196-204.(in Chinese)
[103]张超,乔敏,刘哲,等.基于时序光谱和高分纹理分析的制种玉米田遥感识别[J/OL].农业机械学报,2018,49(5):218-225. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180525&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 05. 025.ZHANG Chao,QIAO Min,LIU Zhe,et al. Seed maize field identification based on analysis of remote sensing timing spectrum and high resolution texture[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(5):218-225.(in Chinese)
[104] YUFENG G E,THOMASSON J A,SUI R. Remote sensing of soil properties in precision agriculture:a review[J]. Frontiers of Earth Science,2011,5(3):229-238.
[105]李建龙,蒋平,刘培君,等.利用遥感光谱法进行农田土壤水分遥感动态监测[J].生态学报,2003,23(8):40-46.LI Jianlong,JIANG Ping,LIU Peijun,et al. The study on dynamic monitoring soil water contents using remote sensing optical method[J]. Acta Ecologica Sinica,2003,23(8):40-46.(in Chinese)
[106]郑兴明,赵凯,李晓峰,等.利用微波遥感土壤水分产品监测东北地区春涝范围和程度[J].地理科学,2015,35(3):334-339.ZHENG Xingming,ZHAO Kai,LI Xiaofeng,et al. Monitoring the range and degree of springing in Northeast China by using microwave remote sensing soil moisture products[J]. Scientia Geographica Sinica,2015,35(3):334-339.(in Chinese)
[107]谭建灿,毛克彪,左志远,等.基于卷积神经网络和AMSR2微波遥感的土壤水分反演研究[J].高技术通讯,2018(5):399-408.TAN Jiancan,MAO Kebiao,ZUO Zhiyuan,et al. Research on soil moisture inversion based on convolutional neural network and AMSR2 microwave remote sensing[J]. High Technology Letters,2018(5):399-408.(in Chinese)
[108]孙丽,王飞,李保国,等.基于多源数据的武陵山区干旱监测研究[J/OL].农业机械学报,2014,45(1):246-252.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20140138&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2014. 01. 038.SUN Li,WANG Fei,LI Baoguo,et al. Study on drought monitoring of Wuling Mountain Area based on multi-source data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2014,45(1):246-252.(in Chinese)
[109]黄婷.基于支持向量机的土壤基础肥力评价和土壤有机质含量预测研究[D].南京:南京农业大学,2015.HUANG Ting. Soil basic fertility evaluation and prediction of soil organic matter content based on support vector machine[D]. Nanjing:Nanjing Agricultural University,2015.(in Chinese)
[110]陈煦.基于光谱分析的农田土壤养分测定方法研究[D].杨凌:西北农林科技大学,2015.CHEN Xu. Study on soil nutrient determination method based on spectral analysis[D]. Yangling:Northwest A&F University,2015.(in Chinese)
[111]潘瑜春,王纪华,陆安祥,等.基于小麦长势遥感监测的土壤氮素累积估测研究[J].农业工程学报,2007,23(9):58-63.PAN Yuchun,WANG Jihua,LU Anxiang,et al. Estimation of soil nitrogen accumulation based on remotely-sensed monitoring of winter-wheat growth status[J]. Transactions of the CSAE,2007,23(9):58-63.(in Chinese)
[112]刘焕军,张新乐,郑树峰,等.黑土有机质含量野外高光谱预测模型[J].光谱学与光谱分析,2010,30(12):3355-3358.LIU Huanjun,ZHANG Xinle,ZHENG Shufeng,et al. Field hyperspectral prediction model for organic matter content in black soil[J]. Spectroscopy and Spectral Analysis,2010,30(12):3355-3358.(in Chinese)
[113]蒙继华,程志强,王一明. WOFOST模型与遥感数据同化的土壤速效养分反演[J].遥感学报,2018,22(4):546-558.MENG Jihua,CHENG Zhiqiang,WANG Yiming. Simulating soil available nutrients by a new method based on WOFOST model and remote sensing assimilation[J]. Journal of Remote Sensing,2018,22(4):546-558.(in Chinese)
[114]张素铭,赵庚星,王卓然,等.滨海盐渍区土壤盐分遥感反演及动态监测[J].农业资源与环境学报,2018,35(4):349-358.ZHANG Suming,ZHAO Gengxing,WANG Zhuoran,et al. Remote sensing inversion and dynamic monitoring of soil salt in coastal saline area[J]. Journal of Agricultural Resources and Environment,2018,35(4):349-358.(in Chinese)
[115]王爽,丁建丽,王璐,等.基于地表光谱建模的区域土壤盐渍化遥感监测研究[J].干旱区地理,2016,39(1):190-198.WANG Shuang,DING Jianli,WANG Lu,et al. Remote sensing monitoring of soil salinization based on surface spectral modeling[J]. Arid Land Geography,2016,39(1):190-198.(in Chinese)
[116]彭杰,刘焕军,史舟,等.盐渍化土壤光谱特征的区域异质性及盐分反演[J].农业工程学报,2014,30(17):167-174.PENG Jie,LIU Huanjun,SHI Zhou,et al. Regional heterogeneity of hyperspectral characteristics of salt-affected soil and salinity inversion[J]. Transactions of the CSAE,2014,30(17):167-174.(in Chinese)
[117]安德玉,邢前国,赵庚星.基于HICO波段的滨海土壤盐分遥感反演研究[J].海洋学报,2018,40(6):51-59.AN Deyu,XING Qianguo,ZHAO Gengxing. Hyperspectral remote sensing of soil salinity for coastal saline soil in the Yellow River Delta based on HICO bands[J]. Acta Oceanologica Sinica,2018,40(6):51-59.(in Chinese)
[118]冯雪力,刘全明.基于多源遥感协同反演的区域性土壤盐渍化监测[J/OL].农业机械学报,2018,49(7):127-133.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180716&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2018. 07. 016.FENG Xueli,LIU Quanming. Regional soil salinity monitoring based on multi-source collaborative remote sensing data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(7):127-133.(in Chinese)
[119]张静静,周卫红,邹萌萌,等.高光谱遥感监测大面积土壤重金属污染的研究现状、原理及展望[J].江苏农业科学,2018,46(12):9-13.ZHANG Jingjing, ZHOU Weihong, ZOU Mengmeng, et al. Research status, principles and development trend of hyperspectral remote sensing for monitoring heavy metal pollution in large-area soils[J]. Jiangsu Agricultural Sciences,2018,46(12):9-13.(in Chinese)
[120] KUANG S A,TIAN S F,CHENG B. Remote sensing monitoring of land desertification in the agriculture and graziery mixed area[J]. Remote Sensing for Land&Resources,2002,14(2):10-14.
[121]王雪璐.青藏高原三江源高寒草地生态系统土壤侵蚀研究[D].兰州:兰州大学,2016.WANG Xuelu. Soil erosion of alpine grassland ecosystem in Sanjiangyuan,Qinghai-Tibet Plateau[D]. Lanzhou:Lanzhou University,2016.(in Chinese)
[122]牛忠恩,闫慧敏,黄玫,等.基于MODIS-OLI遥感数据融合技术的农田生产力估算[J].自然资源学报,2016,31(5):875-885.NIU Zhongen,YAN Huimin,HUANG Mei,et al. Agricultural productivity estimation with MODIS-OLI fusion data[J].Journal of Natural Resources,2016,31(5):875-885.(in Chinese)
[123]肖武,陈佳乐,笪宏志,等.基于无人机影像的采煤沉陷区玉米生物量反演与分析[J/OL].农业机械学报,2018,49(8):169-180. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180820&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 08. 020.XIAO Wu,CHEN Jiale,YAN Hongzhi,et al. Inversion and analysis of maize biomass in coal mining subsidence area based on UAV images[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(8):169-180.(in Chinese)
[124]马佳妮,张超,吕雅慧,等.多源遥感数据支撑的耕地质量监测与评价[J].中国农业信息,2018,30(3):14-22.MA Jiani,ZHANG Chao,LYahui,et al. Monitoring and evaluation of cultivated land quality supported by multi-source remote sensing[J]. China Agricultural Informatics,2018,30(3):14-22.(in Chinese)
[125]毕如田,白中科.基于遥感影像的露天煤矿区土地特征信息及分类研究[J].农业工程学报,2007,23(2):77-82.BI Rutian,BAI Zhongke. Land characteristic information and classification in opencast coal mine based on remote sensing images[J]. Transactions of the CSAE,2007,23(2):77-82.(in Chinese)
[126]张超,李智晓,李鹏山,等.基于高分辨率遥感影像分类的城镇土地利用规划监测[J/OL].农业机械学报,2015,46(11):323-329. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20151144&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. 11. 044.ZHANG Chao,LI Zhixiao,LI Pengshan,et al. Urban rural land use plan monitoring based on high spatial resolution remote sensing imagery classification[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(11):323-329.(in Chinese)
[127]朱永森,曾永年,张猛.基于HJ卫星数据与面向对象分类的土地利用/覆盖信息提取[J].农业工程学报,2017,33(14):258-265.ZHU Yongsen,ZENG Yongnian,ZHANG Meng. Extract of land use/cover information based on HJ satellites data and objectoriented classification[J]. Transactions of the CSAE,2017,33(14):258-265.(in Chinese)
[128]孙中平,白金婷,史园莉,等.基于高分影像的面向对象土地利用变化检测方法研究[J/OL].农业机械学报,2015,46(增刊):297-303. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=2015S047&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. S0. 047.SUN Zhongping,BAI Jinting,SHI Yuanli,et al. Object-oriented detection of land use changes based on high spatial resolution remote sensing image[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(Supp.):297-303.(in Chinese)
[129]杜子涛,杨小明,颜树强,等.奈曼旗土地退化遥感监测研究[J].农业工程学报,2012,28(3):154-161.DU Zitao,YANG Xiaoming,YAN Shuqiang,et al. Study on land degradation monitoring in Naiman county using remote sensing[J]. Transactions of the CSAE,2012,28(3):154-161.(in Chinese)
[130]薛剑,郧文聚,杜国明,等.基于遥感的现代与传统农业区域土地利用格局差异分析[J].农业工程学报,2012,28(24):245-251.XUE Jian,YUN Wenju,DU Guoming,et al. Difference analysis of land use patterns in modern and traditional agricultural region based on remote sensing[J]. Transactions of the CSAE,2012,28(24):245-251.(in Chinese)
[131] YAO X,ZHU D,YE S,et al. A field survey system for land consolidation based on 3S and speech recognition technology[J]. Computers&Electronics in Agriculture,2016,127:659-668.
[132]南锋,朱洪芬,毕如田.黄土高原煤矿区复垦农田土壤有机质含量的高光谱预测[J].中国农业科学,2016,49(11):2126-2135.NAN Feng,ZHU Hongfen,BI Rutian. Hyperspectral prediction of soil organic matter content in the reclamation cropland of coal mining areas in the Loess Plateau[J]. Scientia Agricultura Sinica,2016,49(11):2126-2135.(in Chinese)
[133]郭旭东,苏亚丽,吴长江,等.耕地暴雨灾情动态信息的遥感提取[J].地理空间信息,2018,16(3):57-60.GUO Xudong,SU Yali,WU Changjiang,et al. Remote sensing extraction for dynamic information of farmland storms[J].Geospatial Information,2018,16(3):57-60.(in Chinese)
[134]贾文涛,刘昊博,陈正.土地整治综合监管技术体系研究[C]∥中国土地学会年会,杭州,2013.JIA Wentao,LIU Haobo,CHEN Zheng. Research on comprehensive supervision technology system for land remediation[C]∥Annual Meeting of China Land Society,Hangzhou,2013.(in Chinese)
[135]陈元鹏,周旭.浅议遥感技术在土地复垦监测中的应用[J].中国土地,2017(7):35-37.CHEN Yuanpeng,ZHOU Xu. Discussion on the application of remote sensing technology in land reclamation monitoring[J].China Land,2017(7):35-37.(in Chinese)
[136] HALOUNOVL. Reclamation areas and their development studied by vegetation indices[J]. International Journal of Digital Earth,2008,1(1):155-164.
[137] EL-KAWY O R A,RD J K,ISMAIL H A,et al. Land use and land cover change detection in the western Nile delta of Egypt using remote sensing data[J]. Applied Geography,2011,31(2):483-494.
[138] ERENER A. Remote sensing of vegetation health for reclaimed areas of Seyit9mer open cast coal mine[J]. International Journal of Coal Geology,2011,86(1):20-26.
[139] SEN S,ZIPPER C E,WYNNE R H,et al. Identifying revegetated mines as disturbance/recovery trajectories using an interannual landsat chronosequence[J]. Photogrammetric Engineering&Remote Sensing,2015,78(3):223-235.
[140] CHASMER L,BAKER T,CAREY S K,et al. Monitoring ecosystem reclamation recovery using optical remote sensing:Comparison with field measurements and eddy covariance[J]. Brain Dev,2018(642):436-446.
[141] EVELYNE T,KARA W,BENOIT L,et al. Biophysical indicators based on spatial hierarchy for informing land reclamation:the case of the Lower Athabasca Rive(r Alberta,Canada)[J]. Ecological Indicators,2016(72):173-184.
[142]苏伟,孙中平,李道亮,等.基于多时相Landsat遥感影像的海州露天煤矿排土场植被时空特征分析[J].生态学报,2008,29(11):5860-5868.SU Wei,SUN Zhongping,LI Daoliang,et al. Monitoring of temporal and spatial change of vegetation in waste dump of Haizhou opencast coal mine area using multi-temporal Landsat remote[J]. Acta Ecologica Sinica,2008,29(11):5860-5868.(in Chinese)
[143]黄元仿,张世文,张立平,等.露天煤矿土地复垦生物多样性保护与恢复研究进展[J/OL].农业机械学报,2015,46(8):72-82. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20150812&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2015. 08. 012.HUANG Yuanfang,ZHANG Shiwen,ZHANG Liping,et al. Research progress on conservation and restoration of biodiversity in land reclamation of opencast coal mine[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(8):72-82.(in Chinese)
[144]张耀,周伟.利用多时相遥感影像动态监测矿区植被覆盖变化——以山西省平朔露天煤矿为例[J].西北林学院学报,2016,31(4):206-212.ZHANG Yao,ZHOU Wei. Dynamic monitoring of vegetation cover change in mining areas using multi-temporal remote sensing images:a case study of Pingyu Open-pit Coal Mine in Shanxi Province[J]. Journal of Northwest Forestry University,2016,31(4):206-212.(in Chinese)
[145]寇晓蓉,白中科,杜振州,等.黄土区大型露天煤矿企业土地复垦质量控制研究[J].农业环境科学学报,2017,36(5):957-965.KOU Xiaorong,BAI Zhongke,DU Zhenzhou,et al. Land reclamation quality completion standards for large opencast coal mine enterprises in Loess areas[J]. Journal of Agro-Environment Science,2017,36(5):957-965.(in Chinese)
[146] TAN Kun,YE Yuanyuan,DU Peijun,et al. Estimation of heavy metal concentrations in reclaimed mining soils using reflectance spectroscopy[J]. Spectroscopy and Spectral Analysis,2014,34(12):3317-3322.
[147]张秋霞,张合兵,刘文锴,等.高标准基本农田建设区域土壤重金属含量的高光谱反演[J].农业工程学报,2017,33(12):230-239.ZHANG Qiuxia,ZHANG Hebing,LIU Wenkai,et al. Inversion of heavy metals content with hyperspectral reflectance in soil of well-facilitied capital farmland construction areas[J]. Transactions of the CSAE,2017,33(12):230-239.(in Chinese)
[148]安志宏,程玉书,汪宝存,等.辽源市矿山地质环境恢复治理遥感监测与整治模式一体化研究[J].地质力学学报,2017,23(4):631-637.AN Zhihong,CHENG Yushu,WANG Baocun,et al. A study on the integration of remote sensing monitoring and regulation model in restoration and treatment of mine geological environment in Liaoyuan[J]. Journal of Geomechanics,2017,23(4):631-637.(in Chinese)
[149]叶宝莹,白中科,包妮沙.矿区土地复垦遥感动态监测体系构建[C]∥纪念中国农业工程学会成立30周年暨中国农业工程学会2009年学术年会,晋中,2009.YE Baoying,BAI Zhongke,BAO Nisha. Construction of remote sensing dynamic monitoring system for land reclamation in mining area[C]∥Commemorating the 30th Anniversary of China Agricultural Engineering Society and the 2009 Annual Conference of China Agricultural Engineering Society,Jinzhong,2009.(in Chinese)
[150]于凤荣,杜国明,薛剑,等.黑龙江省垦区大豆和玉米重迎茬遥感监测研究——以友谊农场为例[J].农业现代化研究,2013,34(2):248-252.YU Fengrong,DU Guoming,XUE Jian,et al. A remote sensing monitoring research on continuous and alternate cropping of soybeans and corn in Heilongjiang Reclamation Region with friendship farm as an example[J]. Research of Agricultural Modernization,2013,34(2):248-252.(in Chinese)
[151]吴年新.遥感技术在盐碱地整治规划中的应用[J].城市地理,2015(14):258.WU Nianxin. Application of remote sensing technology in salt and alkali land remediation planning[J]. City Geography,2015(14):258.(in Chinese)
[152]厉彦玲,赵庚星,常春艳,等. OLI与HSI影像融合的土壤盐分反演模型[J].农业工程学报,2017,33(21):173-180.LI Yanling,ZHAO Gengxing,CHANG Chunyan,et al. Soil salinity retrieval model based on OLI and HSI image fusion[J].Transactions of the CSAE,2017,33(21):173-180.(in Chinese)
[153]侯大伟,刘艳,孙华.退耕还林背景下寒地山区土地生态安全格局动态变化[J].农业工程学报,2017,33(18):267-276.HOU Dawei,LIU Yan,SUN Hua. Analysis on dynamic change of ecological security pattern of land in cold mountainous region under background of grain for green project[J]. Transactions of the CSAE,2017,33(18):267-276.(in Chinese)
[154]海文静,刘学录,任君.土地整治中新增耕地认定及有效耕地面积测算[J].云南农业大学学报(自然科学版),2018,33(3):539-546.HAI Wenjing,LIU Xuelu,REN Jun. Identification of newly cultivated land and estimation of effective cultivated land area in land remediation[J]. Journal of Yunnan Agricultural University(Natural Science),2018,33(3):539-546.(in Chinese)
[155] BENZA M,WEEKS J R,STOW D A,et al. A pattern-based definition of urban context using remote sensing and GIS[J].Remote Sensing of Environment,2016,183:250-264.
[156]邹亚锋,吕昌河,白臻昊,等.不同整治模式下的农村居民点整治潜力测算[J].国土资源遥感,2016,28(4):191-196.ZOU Yafeng,LChanghe,BAI Zhenhao,et al. Calculation of land consolidation potential of rural residential land on different models of land consolidation[J]. Remote Sensing for Land&Resources,2016,28(4):191-196.(in Chinese)
[157]屠爽爽,龙花楼,刘永强,等.农村居民点整治潜力测算方法研究进展与展望[J].自然资源学报,2015,30(11):1956-1968.TU Shuangshuang,LONG Hualou,LIU Yongqiang,et al. Research progress and prospects of rural residential remediation potential measurement methods[J]. Journal of Natural Resources,2015,30(11):1956-1968.(in Chinese)
[158]宋伟,陈百明,姜广辉.中国农村居民点整理潜力研究综述[J].经济地理,2010,30(11):1871-1877.SONG Wei,CHEN Baiming,JIANG Guanghui. A review of the research on the potential of rural settlements in China[J].Economic Geography,2010,30(11):1871-1877.(in Chinese)
[159]朱晓华,陈秧分,刘彦随,等.空心村土地整治潜力调查与评价技术方法——以山东省禹城市为例[J].地理学报,2010,65(6):736-744.ZHU Xiaohua,CHEN Yangfen,LIU Yansui,et al. Technique and method of rural land consolidation potential investigation and assessment:a case study of Yucheng City,Shandong Province[J]. Acta Geographica Sinica,2010,65(6):736-744.(in Chinese)
[160] YAN J,XIA F,BAO H X H. Strategic planning framework for land consolidation in China:a top-level design based on SWOT analysis[J]. Habitat International,2015,48:46-54.
[161]姚维岭,荆青青,周英杰,等.基于遥感动态监测的山东省矿山地质环境恢复治理典型模式分析[J].矿产勘查,2015,6(5):627-634.YAO Weiling,JING Qingqing,ZHOU Yingjie,et al. Analysis on typical pattern of mine geological environment restoration and governance based on remote sensing dynamic monitoring in Shandong[J]. Mineral Exploration,2015,6(5):627-634.(in Chinese)
[162] WU K,SHAN L,JING W,et al. Developing a planning model for the construction of ecological corridors for low-carbon ecological cities:a case study of the Shenzhen International Low-Carbon City[J]. Adv. Mater. Res.,2013,841:2823-2829.
[163] CHENG L,XIA N,JIANG P,et al. Analysis of farmland fragmentation in China Modernization Demonstration Zone since“reform and openness”:a case study of South Jiangsu Province[J]. Sci. Rep.,2015,5:11797.
[164]徐秀云,陈向,刘宝梅.微型无人机助力土地整治项目监管[J].测绘通报,2017(3):86-90.XU Xiuyun,CHEN Xiang,LIU Baomei. Supervision of land renovation project by micro-UAV[J]. Bulletin of Surveying and Mapping,2017(3):86-90.(in Chinese)
[165]马能,黄义忠,尹红梅.基于遥感与地理信息系统的石漠化发育区土地整治适宜性评价[J].浙江农业科学,2018,59(8):1464-1468.MA Neng,HUANG Yizhong,YIN Hongmei. Suitability evaluation of land rehabilitation in rocky desertification development area based on remote sensing and geographic information system[J]. Zhejiang Agricultural Sciences,2018,59(8):1464-1468.(in Chinese)
[166]常青,刘丹,刘晓文.矿业城市土地损毁生态风险评价与空间防范策略[J].农业工程学报,2013,29(20):245-254.CHANG Qing,LIU Dan,LIU Xiaowen. Ecological risk assessment and spatial prevention tactic of land destruction in mining city[J]. Transactions of the CSAE,2013,29(20):245-254.(in Chinese)
[167]冯秀丽,王珂,施拥军,等.基于遥感的土地整理研究[J].科技通报,2006,22(2):258-262.FENG Xiuli,WANG Ke,SHI Yongjun,et al. Land consolidation study based on RS[J]. Bulletin of Science and Technology,2006,22(2):258-262.(in Chinese)
[168]张超,蒋一军,罗明,等.土地整理遥感监测系统的设计与实现[J].地理信息世界,2009,7(2):72-77.ZHANG Chao,JIANG Yijun,LUO Ming,et al. Design and development of land consolidation remote sensing monitoring system[J]. Geomatics World,2009,7(2):72-77.(in Chinese)
[169]李少帅,郧文聚,曹文静,等.基于田块尺度的高标准农田建设空间形态判别研究[J/OL].农业机械学报,2018,49(7):112-118. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180714&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2018. 07. 014.LI Shaoshuai,YUN Wenju,CAO Wenjing,et al. Spatial morphology identification of well-facilitated farmland construction based on patch scale[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(7):112-118.(in Chinese)
[170] LENNEY M P,WOODCOCK C E,COLLINS J B,et al. The status of agricultural lands in Egypt:the use of multi temporal NDVI features derived from Landsat TM[J]. Remote Sensing Environment,1996(56):8-20.
[171]韩文霆,张立元,张海鑫,等.基于无人机遥感与面向对象法的田间渠系分布信息提取[J/OL].农业机械学报,2017,48(3):205-214. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170326&journal_id=jcsam. DOI:10. 6041/j. issn. 1000-1298. 2017. 03. 026.HAN Wenting,ZHANG Liyuan,ZHANG Haixin,et al. Extraction method of sublateral canal distribution information based on UAV remote sensing[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):205-214.(in Chinese)
[172]张超,王志浩,杨建宇,等.基于Canny算子的农田线状工程地物自动提取方法[J/OL].农业机械学报,2015,46(2):270-275. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20150239&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2015. 02. 039.ZHANG Chao,WANG Zhihao,YANG Jianyu,et al. Farmland linear project feature auto-extraction method based on Canny algorithm[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(2):270-275.(in Chinese)
[173]顾呈剑.无人机航测技术辅助土地整治项目规划设计和监管研究[D].南昌:江西财经大学,2016.GU Chengjian. Planning,design and supervision of UAV aerial survey technology aided land remediation project[D].Nanchang:Jiangxi University of Finance and Economics,2016.(in Chinese)
[174] DENG X,HUANG J,ROZELLE S,et al. Cultivated land conversion and potential agricultural productivity in China[J].Land-use Policy,2006,23(4):372-384.
[175] GAO X,WU K N,CHEN X Z,et al. Feasible potential of cultivated land quality promoted by land consolidation project[J].Transactions of the CSAE,2016,32(16):233-240.
[176] LUO M F,ZHAO C W. Comparison of the cultivated land quality before and after the land consolidation:a case study of Guanling Autonomous County[J]. Chinese Journal of Agricultural Resources and Regional Planning,2013,34(6):127-131.
[177] SONG W,LIU M L. Farmland conversion decreases regional and national land quality in China[J]. Land Degrad. Dev.,2016,28(2):459-471.
[178]洪长桥,金晓斌,陈昌春,等.基于多源遥感数据融合的土地整治区产能动态监测:方法与案例[J].地理研究,2017,36(9):1787-1800.HONG Changqiao,JIN Xiaobin,CHEN Changchun,et al. Dynamically monitoring productivity of cultivated land enrolled in land consolidation programs based on fusing multi-source remote sensing data:methodology and a case study[J].Geographical Research,2017,36(9):1787-1800.(in Chinese)
[179] LOBELL D B. The use of satellite data for crop yield gap analysis[J]. Field Crops Res.,2013,143(SI):56-64.
[180] JIN X,SHAO Y,ZHANG Z,et al. The evaluation of land consolidation policy in improving agricultural productivity in China[J]. Scientific Reports,2017,7(1):2792.
[181] DU X,ZHANG X,JIN X. Assessing the effectiveness of land consolidation for improving agricultural productivity in China[J]. Land Use Policy the International Journal Covering All Aspects of Land Use,2018,70:360-367.
[182]张兵,崔希民,赵彦博,等.基于High-1卫星影像的土地整治遥感监测方法研究与实践[J].农业工程学报,2015,31(20):225-233.ZHANG Bing,CUI Ximin,ZHAO Yanbo,et al. Method and application of remote sensing monitoring in land consolidation based on High-1 satellite image[J]. Transactions of the CSAE,2015,31(20):225-233.(in Chinese)
[183]张超,刘佳佳,陈英义,等.土地整治区田块空间形态变化遥感监测与评价[J/OL].农业机械学报,2017,48(1):104-111. http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20170114&journal_id=jcsam.DOI:10. 6041/j. issn. 1000-1298. 2017. 01. 014.ZHANG Chao,LIU Jiajia,CHEN Yingyi,et al. Remote sensing monitor and evaluation on patch morphology changing in land consolidation areas[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2017,48(1):104-111.(in Chinese)
[184]吕雅慧,张超,郧文聚,等.高分辨率遥感影像农田林网自动识别[J/OL].农业机械学报,2018,49(1):157-163.http:∥www. j-csam. org/jcsam/ch/reader/view_abstract. aspx? flag=1&file_no=20180120&journal_id=jcsam. DOI:10.6041/j. issn. 1000-1298. 2018. 01. 020.LYahui,ZHANG Chao,YUN Wenju,et al. Automatic recognition of farmland shelterbelts in high spatial resolution remote sensing data[J/OL]. Transactions of the Chinese Society for Agricultural Machinery,2018,49(1):157-163.(in Chinese)
[185]韩已文,刘忠,于学谦,等.沙化土地整治背景下的沙漠化监测预警[J].农业工程学报,2017,33(10):271-277.HAN Yiwen,LIU Zhong,YU Xueqian,et al. Desertification monitoring and early warning under the background of desertification land improvement[J]. Transactions of the CSAE,2017,33(10):271-277.(in Chinese)
[186]张寅玲,白中科,陈晓辉,等.基于遥感技术的露天矿区土地复垦效益评价[J].中国矿业,2014(6):71-75.ZHANG Yuling,BAI Zhongke,CHEN Xiaohui,et al. Benefit evaluation of land reclamation in open-pit mining area based on remote sensing technology[J]. China Mining Magazine,2014(6):71-75.(in Chinese)
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