Domestic satellite data of remote sensing geological interpretation system based on the total factor: A case study of the arid and semi-arid mountains

doi:10.6046/gtzyyg.2017.s1.04

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Abstract In order to improve the service application pattern of remote sensing data in geological survey and mineral evaluation, the authors tried to promote the overall development of comprehensive geological survey. An analysis of the data features of domestic satellite ZY1-02, ZY-3, GF-1, GF-2, cold condition in arid and semi-arid mountainous landscape area, the results of the research on geological survey, present application situation and existing norms and standards, the authors built the total factor system of remote sensing geological interpretation for the cold condition in arid and semi-arid mountainous landscape area. According to the interpretation system, domestic satellite data were used in Altun Mountains in Xinjiang to carry out the application demonstration research. The results obtained by the authors can meet the needs of the industrial requirements and the geological survey work.

Keywords domestic satellite territorial resources method study

Issue Date: 24 November 2017

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	Ding Yuxue

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Ding Yuxue. Domestic satellite data of remote sensing geological interpretation system based on the total factor: A case study of the arid and semi-arid mountains[J]. REMOTE SENSING FOR LAND & RESOURCES, 2017, 29(s1): 21-26.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2017.s1.04 OR https://www.gtzyyg.com/EN/Y2017/V29/Is1/21

[1] 曹福根.J46E005001幅、J46E005002幅、J46E006001幅、J46E006002幅1∶5万区域地质调查[D].克拉玛依:新疆维吾尔自治区地质调查院,2009.
Cao F G.J46E005001,Portrait J46E005002,J46E006001,J46E006002 of 1∶50000 Regional Geological Survey[D].Karamay:Xinjiang Uygur Autonomous Region Geological Survey Institute,2009.
[2] 毛德宝.新疆阿尔金成矿带成矿规律和找矿方向综合研究[D].天津:天津地质调查中心,2003.
Mao D B.The Aljin Metallogenic Zone in Xinjiang is A Comprehensive Study of Mining and Prospecting[D].Tianjin:Tianjin Geological Survey Center,2003.
[3] 杨风.新疆阿尔金断裂北带资源评价[D].克拉玛依:新疆维吾尔自治区地质调查院,2005.
Yang F.Resource Evaluation of Aljin Fault in Xinjiang[D].Karamay:Xinjiang Uygur Autonomous Region Geological Survey Institute,2005.
[4] 党福星.阿尔金西段地区遥感找矿异常提取方法研究[D].北京:中国国土资源航空物探遥感中心,2002.
Dang F X.Study on Extraction Method of Remote Sensing Prospecting in Alkin Western Region[D].Beijing:China Aero Geophysical Survey & Remote Sensing Center for Land and Resources,2002.
[5] 中国地质调查局.DD 2014—13岩矿波谱测试技术规程[S].北京:中国国土资源航空物探遥感中心,2014.
China Geological Survey.DD 2014-13 Technical Specification for Rock and Mineral Spectrum Testing[S].Beijing:China Aero Geophysical Survey & Remote Sensing Center for Land and Resources,2014.
[6] 国土资源部.DZ/T 0257—2014区域地质调查规范(1∶250000)[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0257—2014 Regional Geological Survey Specification (250,000)[S].Beijing:China Standard Press,2014.
[7] 国土资源部.DZ/T 0258—2014多目标区域地球化学调查规范(1∶250000)[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0258—2014 Multi-target Regional Geochemical Survey(250,000)[S].Beijing:China Standard Press,2014.
[8] 国土资源部.DZ/T 0203—2014航空遥感摄影技术规程[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0203—2014 Aviation Remote Sensing Photography Technical Regulations[S].Beijing:China Standard Press,2014.
[9] 国土资源部.DZ/T 0264—2014遥感解译地质图制作规范(1∶250000)[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0264—2014 Geological Map Production Specification for Remote Sensing Interpretation(250,000)[S].Beijing:China Standard Press,2014.
[10] 国土资源部.DZ/T 0265—2014遥感影像地图制作规范(1∶50000/1∶250000)[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0265—2014 Specification of Remote Sensing Image Map Production(50,000,250,000)[S].Beijing:China Standard Press,2014.
[11] 国土资源部.DZ/T 0266—2014矿产资源开发遥感监测技术规范[S].北京:中国标准出版社,2014.
Ministry of Land and Resources.DZ/T 0266—2014 Technical Specification for Remote Sensing Monitoring of Mineral Resources Exploitation[S].Beijing:China Standard Press,2014.
[12] DZ/T 0151—2015区域地质调查中遥感技术规定(5万)[S].合肥:安徽省地质调查院,2015.
DZ/T 0151—2015 Regional Geological Survey of Remote Sensing Technology(50000)[S].Hefei:Geological Survey Institute of Anhui Province,2015.
[13] 国土资源部.DZ/T 0190—2015区域环境地质勘查遥感技术规定[S].北京:中国标准出版社,2015.
Ministry of Land and Resources.DZ/T 0190—2015 Regional Environmental Geological Survey Remote Sensing Technology Requirements[S].Beijing:China Standard Press,2015.
[14] 国土资源部.DZ/T 0286—2015地质灾害危险性评估规范[S].北京:中国标准出版社,2015.
Ministry of Land and Resources.DZ/T 0286—2015 Specification of Risk Assessment for Geological Hazard[S].Beijing:China Standard Press,2015.
[15] 国土资源部.DZ/T 0287—2015矿山地质环境监测技术规程[S].北京:中国标准出版社,2015.
Ministry of Land and Resources.DZ/T 0287—2015 Technical Regulation for Mining Geo-environment Monitoring[S].Beijing:China Standard Press,2015.
[16] 国家环境监测总站.HJ/T 192—2006生态环境状况评价技术规范[S].北京:国家环境监测总站,2006.
National Environmental Monitoring Station.HJ/T 192—2006 Technical Criterion for Eco-environmental Status Evaluation[S].Beijing:National Environmental Monitoring Station,2006.
[17] 中国地质调查局.DD 2008—02滑坡崩塌泥石流灾害调查规范(1∶50000)[S].北京:中国地质调查局,2008.
China Geological Survey.Investigation Norm of the DD 2008—02 Landslide Debris Flow Disaster(1∶50000)[S].Beijing:China Geological Survey,2008.
[18] 中国地质调查局.DD 2008—03城市环境地质调查评价规范[S].北京:中国地质调查局,2008.
China Geological Survey.DD 2008—03 Urban Environmental Geology Survey and Evaluation Standard[S].Beijing:China Geological Survey,2008.
[19] 中国地质调查局.DD 2010—03区域地下水资源调查评价数据库标准[S].北京:中国地质调查局,2010.
China Geological Survey.DD 2010—03 Regional Groundwater Resource Survey Evaluation Database Standard[S].Beijing:China Geological Survey,2010.
[20] 赵玲,王核,刘建平,等.西昆仑地区恰尔隆-大同一带ETM遥感影像构造解译[J].大地构造与成矿学,2008,32(4):470-474.
Zhao L,Wang H,Liu J P,et al.The structure interpretation of ETM remote sensing image in Kayizi,Datong region of the west Kunlun[J].Geotectonica et Metallogenia,2008,32(4):470-474.
[21] 刘拓,单金忠,王学彦,等.新疆地球化学景观区划分及意义[J].新疆地质,2001,19(3):228-230.
Liu T,Shan J Z,Wang X Y,et al.Division of geochemical landscape regions and its significance in Xinjiang[J].Xinjiang Geology,2001,19(3):228-230.
[22] 黄志荣.新疆特殊景观区区域化探研究[J].新疆有色金属,2006,19(3):13-14.
Huang Z R.Regional geochemical exploration of Xinjiang special landscape area[J].Xinjiang Nonferrous Metals,2006,19(3):13-14.
[23] 丁丽霞,王人潮,周斌.基于遥感影像光谱特征的景观分区研究[J].科技通报,2005,21(3):266-271.
Ding L X,Wang R C,Zhou B.The study of the zoning landscape based on spectral character[J].Bulletin of Science and Technology,2005,21(3):266-271.

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