|
��չ���� |
|
| ������Ϣ | |
 |
Supporting info |
|
PDF(7875KB) |
|
[HTMLȫ��] |
|
�����[PDF] |
|
����� |
| �����뷴�� | |
|
�������ù����� |
|
���� |
|
Email Alert |
|
���·��� |
|
���������Ϣ |
| ���Ĺؼ���������� | |
|
��ά������ʵ��� |
|
���ӵ��� |
|
���� |
|
����������� |
|
�������� |
|
�ļ�������� |
| ��������������� | |
| PubMed | |
2. �й����ʿ�ѧ�о�Ժ�����о���, ���� 100037
�ڱ��ʱ��θ��ӵ���������—�����ϲ��ı�Ϫ—�ٽ�������չ����ά���ʵ��鹤���Ļ����ϣ�������̽��ʵ�����ó����������������桢����ģ���桢��ģԼ������ͽ�ģ�����ļ���������µķֵ�Ԫ��ά���ʵ��鷽��������ЧԼ����������ʽṹ������˿�չ��ά������ʵ����17�����裻�����˷����������ڱ�Ϫ—�ٽ�������Ӧ���������Ч�ԡ��ɲ����Լ��ɿ��ԡ�
2. Institute of Geology, Chinese Academy of Geological Sciences, Beijing 100037, China
On basis of the three-dimensional geological survey completed in the Benxi-Linjiang area in eastern Liaoning-southern Jilin Province where the metamorphism and deformation are complicated, and by repeated practice and exploration, we conclude that subdivision three-dimensional geological survey method controlled by four-level profiles comprised of regional trunk profile, regional modeling profile, modeling constraint profile and modeling profile can constrain the deep geologic structure effectively. We also proposed 17 steps for conducting a three-dimensional geological survey and discussed the application situation, effectiveness, operability of this method and process and reliability of the result.
�й����ʵ���ֱ�Ϫ—�ٽ���������ʵ��飨12120112202��.
[1] ������. ����GIS����ά���ʽ�ģ�����ӻ�ϵͳ�ؼ������о�[J]. ��ʯ��ѧ�빤��ѧ��, 2005, 24(19):3601. ZHU Liang-feng. Study on key techniques of 3D geological modeling and visualization system based on GIS[J].Chinese Journal of Rock Mechanics and Engineering, 2005, 24(19):3601.
[2] �½�ƽ, ����, ��ΰ,��. ���ʵ�Ԫ������ɿ�Ԥ��[J]. ���ִ�ѧѧ��:�����ѧ��, 2013, 43(4):1083-1091. CHEN Jian-ping, YAN Qiong, LI Wei, et al. Methods of geological statistics in prediction of mineral resources[J]. Journal of Jilin University:Earth Science Edition, 2013, 43(4):1083-1091.
[3] ��С��, Ѧ�ָ�, ������,��. �ɼ����ѹȲ��ֵ�������ʽṹ����[J]. �������, 2014, 36(2):489-500. LIU Xiao-yang, XUE Lin-fu, LIU Zheng-hong, et al. The deep geological structure characteristics of parts of Liaoji paleorift[J]. Seismology and Geology, 2014, 36(2):489-500.
[4] ������, ������, �����,��. ���ڵر���ʵ���������������ϵĸ�����ɽ����ά���ʵ����뽨ģ����[J]. �����ѧ, 2015(3):397-406. WANG Guo-can, XU Yi-xian, CHEN Xu-jun, et al. Three dimensional geological survey and modeling method of complex orogenic belt based on the surface geological survey section network [J]. Earth Science, 2015(3):397-406.
[5] Akiska S, Sönmez S, Demirela G. Three-dimensional subsurface modeling of mineralization: a case study from the Handeresi (Çanakkale, NW Turkey) Pb-Zn-Cu deposit[J]. Turkish Journal of Earthences, 2013, 22(4):574-587.
[6] Wang G, Huang L. 3D geological modeling for mineral resource assessment of the Tongshan Cu deposit, Heilongjiang Province, China[J]. Geoscience Frontiers, 2012, 3(4):483-491.
[7] Wang G, Zhu Y, Zhang S, et al. 3D geological modeling based on gravitational and magnetic data inversion in the Luanchuan ore region, Henan Province, China[J]. Journal of Applied Geophysics, 2012, 80(5):1-11.
[8] �����, ���ٻ�, ��ΰ,��. ��ά����ģ�����������о���Ӧ��[J]. ���ִ�ѧѧ��:�����ѧ��, 2004, 34(2):309-313. CHENG Peng-gen, LIU Shao-hua, WANG Wei, et al.Study and application of a new 3D geological model construction method[J]. Journal of Jilin University: Earth Science Edition, 2004, 34(2):309-313.
[9] ������, ������, ���־�. GIS��GOCAD֧���µĿ�ɽ3D���ʽ�ģ[J]. �����������Ϣ��ѧ, 2009, 25(2):34-38. ZHAO Xiao-dong, LI Li-gang, PENG Lin-jun. GIS and GOCAD-based methodology of 3D geological modeling of mine and its application[J].Geography and Geo-Information Science, 2009, 25(2):34-38.
[10] ���,�ſ���,ǽ����,��.����������ʵ���ϵͳ�����о�[J]. �����ѧ��չ,2002,17(5):763-768. LI Chao-ling, ZHANG Ke-xin, QIANG Fang-zhu, et al. Research on digital regional geologic survey system techniques[J]. Advance in Earth Science,2002,17(5):763-768.
[11] �����, ţ�Ľ�, ����,��. ���ʹ������ά���ӻ�[J]. �������պ����ѧѧ��, 2001, 27(4):448-451. ZHU Da-pei, NIU Wen-jie, YANG Qin, et al. Three-dimensional visualization for geology-constructed-model[J].Journal of Beijing University of Aeronautics and Astronautics, 2001, 27(4):448-451.
[12] ����. ��ά���ʽ�ģ�����о�[J]. �����������Ϣ��ѧ, 2011, 27(4):14-18. MING Jing. A study on three-dimensional geological modeling[J]. Geography and Geo-Information Science,2011, 27(4):14-18.
[13] Ѧ�ָ�, ������, ��ΰ,��. �ֿ�������ά���ʽ�ģ����[J]. ���ִ�ѧѧ��:�����ѧ��, 2014(6):2051-2058. XUE Lin-fu, LI Wen-qing, ZHANG Wei, et al. A method of block-divided 3D geologic modeling in regional scale[J]. Journal of Jilin University: Earth Science Edition, 2014(6):2051-2058.
[14] Kemp E A D, Sprague K B. Interpretive tools for 3-D structural geological modeling part I: Bézier-based curves, ribbons and grip frames[J]. Geoinformatica, 2003, 7(1):55-71.
[15] Kemp E A D. 3-D visualization of structural field data: examples from the Archean Caopatina Formation, Abitibi greenstone belt, Québec, Canada [J]. Computers & Geosciences, 2000, 26(5):509-530.
[16] Sprague K B, Kemp E A D. Interpretive tools for 3-D structural geological modelling part II: surface design from sparse spatial data[J]. Geoinformatica, 2005, 9(1):5-32.
[17] Kaufmann O, Martin T. Reprint of “3D geological modelling from boreholes, cross-sections and geological maps, application over former natural gas storages in coal mines” [J]. Computers & Geosciences, 2008, 34(3):278-290.
[18] Chen Y F, Cai D M, Fan Z F, et al. 3D geological modeling of dual porosity carbonate reservoirs: a case from the Kenkiyak pre-salt oilfield, Kazakhstan[J]. Petroleum Exploration & Development, 2008, 35(4):492-497.
[19] Tonini A, Guastaldi E, Meccheri M. Three-dimensional reconstruction of the Carrara Syncline (Apuane Alps, Italy): an approach to reconstruct and control a geological model using only field survey data[J]. Computers & Geosciences, 2009(35):33-48.
[20] Herbert M H, Jones C B, Tudhope D S. Three-dimensional reconstruction of geoscientific objects from serial sections[J]. Visual Computer, 1995, 11(7):343-359.
[21] Yose L A. 3-D geologic model of a fractured carbonate reservoir, Norman Wells Field, NWT, Canada[J]. Bulletin of Canadian Petroleum Geology, 2001, 49(1):86-116.
[22] �����,���,����,��.���ں������������ά���ʽ�ģ[J].������ѧѧ��:��Ȼ��ѧ��,2006,42(6):717-723. QU Hong-gang, PAN Mao, WANG Yong, et al. Three-dimensional geological modeling from topological cross-sections[J]. Acta Scientiarum Naturalium Universitatis Pekinensis, 2006,42(6):717-723.
[23] ��ΰ,Ѧ�ָ�,���,��.����������ά���ʽ�ģ�������ڱ�Ϫ����Ӧ��[J].��������Դ,2013,22(5):403-408. ZHANG Wei,XUE Lin-fu,PENG Chong, et al. The 3D modeling method based on profiles and its application in Benxi, Liaoning Province[J]. Geology and Resources,2013,22(5):403-408.
[24] ����,��ΰ��,������.��ά���ʽ�ģ��Ӧ���о�[J].��ѧ�����빤��,2008,8(24):6584-6590. LI Shu, LI Wei-bo, SONG Shi-peng. Applied research of the three-dimensional geological model building[J]. Science Technology and Engineering, 2008,8(24):6584-6590.
[25] ���,��ԣ,�����.��ά���ʽ�ģ���ɻ�������̽��[J].�����������Ϣ��ѧ,2007,23(3):1-5. PAN Mao, FANG Yu, QU Hong-gang. Discussion on several foundational issues in three-dimensional geological modeling[J]. Geography and Geo-Information Science,2007,23(3):1-5.
[26] Galera C, Bennis C, Moretti I, et al. Construction of coherent 3D geological blocks[J]. Computers & Geosciences, 2003, 29(8):971-984.
[27] �ξ���, ������, ������,��. ���������ά��������ʽ�ģ[J]. �����뿱̽, 2015, 51(6):1049-1058. HE Jing-zi, FAN Zheng-guo, HUANG Xu-zhao, et al. Three-dimensional inversion of magnetic data and geological modeling for the Hongge iron deposit[J]. Geology and Exploration, 2015, 51(6):1049-1058.
[28] ��ҫ��, �̰���, �ᄚ��. һ�ָ�Ч��DCT��ͼ���²�������[J]. �й�ͼ��ͼ��ѧ��, 2005, 10(4):511-515. DU Yao-gang, CAI An-ni, SUN Jing-ao. An efficient method for DCT-domain image down sampling[J]. Journal of Image and Graphics, 2005, 10(4):511-515.
[29] ����. TerraSAR��������ʵ����е�Ӧ�÷���[J]. �������, 2010, 29(4):640-645. ZHANG Rui-jiang. Application method of TerraSAR in regional geological survey[J]. Global Geology, 2010, 29(4):640-645.
[30] ��־��.���ڵ������湹����ά����ģ�͵ķ����о�[J].�����뿱̽,2016,52(2):363-375 WU Zhi-chun. Methods of three-dimensional geological modeling based on geological sections[J]. Geology and Exploration, 2016,52(2):363-375.
[31] ����, Ѧ�ָ�, ���,��. ��ɽ—��Ϫ����̫����ᾧ��������[J]. �������, 2016, 35(2):387-394. WANG Yu, XUE Lin-fu, PENG Chong, et al. Buried depth of Archean crystalline basement in Anshan-Benxi area[J]. Global Geology, 2016, 35(2):387-394.
[32] ����, Ѧ�ָ�, ף��,��. ������������—ƫ����Ѵ����������[J]. �������, 2016, 35(2):495-502. JIANG Yan, XUE Lin-fu, ZHU Ming, et al. Deep geological features of Hanling-Pianling fault zone in eastern Liaoning[J]. Global Geology, 2016, 35(2):495-502.