[1]熊盛青, 陈斌, 于长春,等. 地下煤层自燃遥感与地球物理探测技术[M]. 北京:地质出版社, 2006:1-82.
[2]谭海樵, 王作棠, 季景贤. 面向地下煤火热场模型的遥感技术体系初探[J].国土资源遥感,2002(3):54-57.
[3]张建民, 管海晏,Rosema A. 煤田火区遥感四层空间探测方法[J]. 国土资源遥感, 2004(4):50-53.
[4]Kuenzer Claudia, Zhang Jianzhong, Tetzlaff Anke, et al. Uncontrolled Coal Fires and Their Environmental Impacts:Investigating Two Arid Mining Regions in North-Central China[J]. Applied Geography,2007,27:42-62.
[5]王卫平,于长春,方迎尧,等.内蒙古乌达地区地球物理场特征与地下煤火分布[J].物探与化探,2007, 31(6):551-555.
[6]Zhuang Wei, Chen Yunhao, Cai Hongchun,et al. Extracting Thermal Anomalies of Underground Coal Fire from Multi-Temporal Daytime Images[C]//IEEE. International Geoscience and Remote Sensing Symposium. USA:IEEE,2007:3732-3735.
[7]Chatterjee R S. Coal Fire Mapping from Satellite Thermal IR data-A Case Example Injharia Coalfield, Jharkhand, India[J]. ISPRS Journal of Photogrammetry & Remote Sensing,2006, 60:113-128.
[8]Prasun K Gangopadhyay, Kuntala Lahiri-Dutt, Kanika Saha. Application of Remote Sensing to Identify Coalfires in the Raniganj Coalbelt, India[J]. International Journal of Applied Earth Observation and Geoinformation, 2006,8:188-195.
[9]Lesniak A, Porzycka S. Comprehensive Interpretation of Satellite and Surface Measurements for Hazard Assessment on Mining and Post Mining Areas[J]. Gospodarka Surowcami Mineralnymi-mineral Resources Management,2008,24(2):147-159.
[10]Raucoules D,Le Mouelic S,Carnec C,et al. Monitoring Post-mining Subsidence in the Nord-Pas-de-Calais Coal Basin (France):Comparison Between Interferometric SAR Results and Leveling[J].Geocarto International,2008,23(4):287-295.
[11]Jung Hahn Chul, Kim Sang, Jung Wan, et al. Satellite Observation of Coal Mining Subsidence by Persistent Scatterer Analysis[J]. Engineering Geology,2007,92:1-13.
[12]Baek Jin, Kim Sang-Wan, Park Hyuck-Jin,et al. Analysis of Ground Subsidence in Coal Mining Area Using SAR Interferometry[J]. Geosciences Journal,2008,12(3):277 -284.
[13]吴立新,高均海,葛大庆,等.基于D-InSAR的煤矿区开采沉陷遥感监测技术分析[J].地理与地理信息科学,2004,20(2):22-25.
[14]姜岩, 高均海. 合成孔径雷达干涉测量技术在矿山开采地表沉陷监测中的应用[J]. 矿山测量, 2003(1):5-7.
[15]吴立新,高均海,葛大庆,等.工矿区地表沉陷D-InSAR监测试验研究[J].东北大学学报,2005, 26(8):778-781.
[16]Ge Daqing,Wang Yan, Hu Qiong, et al. Using Small Baseline SAR Interferometry to Investigate Land Subsidence Induced by Underground Coal Mining[C]//2008 IEEE International Geoscience and Remote Sensing Symposium. USA:IEEE,2008:1201-1204.
[17]Li F P, Liu R Y, Lu M X, et al. Research of D-InSAR Technique in Monitoring Coal-mining Subsidence[C]//Univ Queensland;Natl Nat Sci Fdn China. 3RD International Symposium on Modern Mining & Safety Technology Proceedings. Beijing:Coal Industry Publ,2008:523-526.
[18]Voigt Stefan,Tetzlaff Anke,Zhang Jianzhong, et al. Integrating Satellite Remote Sensing Techniques for Detection and Analysis of Uncontrolled Coal Seam Fires in North China[J]. International Journal of Coal Geology, 2004, 59:121-136.
[19]Nga A H, Changa H, Gea L, et al. Radar Interferometry for Ground Subsidence Monitoring Using ALOS PALSAR Data[C]//ISPRS Congress Beijing. Great Britain:Blackwell Publishing Ltd,2008:67-73.
[20]Ryoichi Furuta, Masanobu Shimada , Takeo Tadono,et al. Interferometric Capabilities of ALOS PALSAR and Its Utilization[C]//Fringe 2005 Workshop, Proceedings of the Conference. German:Springer,2006:341-344.
[21]张登荣, 俞乐.一种高精度的干涉雷达复数影像配准方法[J]. 遥感学报,2007,11(4):563-567.
[22]谢酬, 李震, 李新武. 基于PALSAR数据的青藏高原冻土形变检测方法研究[J]. 国土资源遥感, 2008(3):15-19. |