Research progress and prospect of geological informatization construction
TAN Yongjie1,2, WEN Min3
1. Institute of Geomechanics, Chinese Academy of Geological Sciences, Beijing 100081, China; 2. Geological Science Data Center, China Geological Survey, Beijing 100081, China; 3. Development and Research Center, China Geological Survey, Beijing 100037, China
Abstract:Based on the understanding of geological work and the practice of geological informatization research for years, the authors in this research systematically discussed the basic connotation of geological informatization, and divided the development process of geological informatization into three stages as digitalization, networking and big data era, with the summarization of the main characteristics and landmark achievements of geological informatization in each stage. Besides, 10 representative achievements of geological informatization in the past 20 years have been proposed, in aspect of geological data resource construction, geological work mainstream informatization, geological data sharing and information service, geological information infrastructure construction, and geological information application in major projects. The achievements of geological information are believed to be rich, and adaptable to contemporary development, which made important contributions to the improvement of quality and efficiency and modernization of geological work. The defects in geological informatization, such as the diversity of data formats, the difficulty of integration, and the insufficient integration of information technology with geological research, have been analyzed. The development directions for the geological informatization were proposed, including strengthening the research of geological data model and data collection standards, integrating the data resources, perfecting the digital geological survey system, optimizing the information model and the deployment mode of management information system, and improving the framework of “Geo-Cloud”.
谭永杰, 文敏. 地质信息化建设研究进展与展望[J]. 中国地质调查, 2023, 10(2): 1-9.
TAN Yongjie, WEN Min. Research progress and prospect of geological informatization construction. , 2023, 10(2): 1-9.
[1] 周家寰. 地质调查信息化建设成果及思路[J].国土资源信息化,2005(5):2-4. Zhou J H.Achievements and consideration of geological survey informatization[J].Land Resour Inform,2005(5):2-4. [2] 谭永杰,杨东来,李景朝.地质调查信息化建设成就与展望[C]//中国地理信息系统协会第四次会员代表大会暨第十一届年会论文集.北京:中国地理信息系统协会,2007:536-541. Tan Y J,Yang D L,Li J C.Achievements and prospects of geological survey informatization construction[C]//Proceedings of the Fourth Member Congress and the Eleventh Annual Meeting of China Geographic Information System Association.Beijing:China Geographic Information System Association,2007:536-541. [3] 谭永杰,施俊法,张阳明.中国地质调查局发展研究中心1999~2010成果巡礼[M].北京:地质出版社,2011:167-186. Tan Y J,Shi J F,Zhang Y M.Achievements Summary of the Development and Research Center,the China Geological Survey,from 1999 to 2010[M].Beijing:Geology Press,2011:167-186. [4] 谭永杰,朱月琴,屈红刚,等.话说大数据与地质大数据[M].北京:地质出版社,2019:39-50,132-139. Tan Y J,Zhu Y Q,Qu H G,et al.Talking about Big Data and Geological Big Data[M].Beijing:Geology Press,2019:39-50,132-139. [5] 舒良树. 普通地质学[M].4版.北京:地质出版社,2020:1-4. Shu L S.Physical Geology[M].4th ed.Beijing:Geology Press,2020:1-4. [6] 李守义,叶松青.矿产勘查学[M].2版.北京:地质出版社,2003:47-69. Li S Y,Ye S Q.Mineral Exploration Second Edition[M].2nd ed.Beijing:Geology Press,2003:47-69. [7] 谭永杰,文敏,朱月琴,等.地质数据的大数据特性研究[J].中国矿业,2017,26(9):67-71,84. Tan Y J,Wen M,Zhu Y Q,et al.Research on the big data characteristics of geological data[J].China Min Mag,2017,26(9):67-71,84. [8] 邬贺铨. 大数据时代的机遇与挑战[J].求实杂志,2013(4):47-49. Wu H Q.Opportunities and challenges in the era of big data[J].Reality Mag,2013(4):47-49. [9] 李超岭,李丰丹,刘畅等.数字地质调查理论、技术方法与软件平台[M].北京:地质出版社,2016. Li C L,Li F D,Liu C,et al.Digital Geological Survey Theory,Technical Methods and Software Platform[M].Beijing:Geology Press,2016. [10] 谭永杰. 地质大数据与信息服务工程技术框架[J].地理信息世界,2016,23(1):1-9. Tan Y J.Architecture and key issues of Geological big data and information service project[J].Geomatics World,2016,23(1):1-9. [11] 谭永杰,屈红刚,文敏.论地质调查工作大数据[J].地理信息世界,2018,25(2):7-11. Tan Y J,Qu H G,Wen M.On big data of geological survey[J].Geomatics World,2018,25(2):7-11. [12] 谭永杰. 地质大数据体系建设的总体框架研究[J].中国地质调查,2016,3(3):1-6. Tan Y J.Architecture investigation of the construction of geological big data system[J].Geol Surv China,2016,3(3):1-6. [13] 施俊法.智谋经纬:中国地质调查局发展研究中心:二十年回顾与展望[M].北京:地质出版社,2022:73-118,119-184. Shi J F.Wisdom Drawing Main Threads:Twenty Years Review and Prospect of the Development Research Center,China Geological Survey[M].Beijing:Geology Press,2022:73-118,119-184. [14] 张明华,乔计花,黄金明,等.重磁电数据处理解释软件RGIS[M].北京:地质出版社,2011. Zhang M H,Qiao J H,Huang J M,et al.Gravity,Magnetic and Electric Data Processing and Interpretation Soft RGIS[M].Beijing:Geology Press,2011. [15] 向运川. 区域地球化学数据管理信息系统的实现技术[J].物探与化探,2002,26(3):209-214,217. Xiang Y C.Implementation and techniques of regional geochemical data management and information system[J].Geophys Geochem Explor,2002,26(3):209-214,217. [16] 李仰春,王永志,黄辉,等.智能地质编图技术研究与实践[M].北京:地质出版社,2021:27-142. Li Y C,Wang Y Z,Huang H,et al.Research and Practice of Intelligent Geological Mapping Technology[M].Beijing:Geology Press,2021:27-142. [17] 李超岭,吕霞,李健强,等.中国地质调查信息网格:技术与方法[M].北京:地质出版社,2013. Li C L,Lv X,Li J Q,et al.China Geological Survey Information Grid:Technology and Methods[M].Beijing:Geology Press,2013. [18] 谭永杰.打开地质信息服务的大门——谈新形势下如何推进我国地质资料服务工作[N].中国自然资源报,2017-02-21(003). Tan Y J.Open the door of geological information service—talk about how to promote China's geological data service under the new situation[N].China Land and Resources News,2017-02-21(003). [19] 王想红,谭永杰,张怀东,等.地质调查项目管理系统的设计与实现[J].地质论评,2015,61(S1):872-873. Wang X H,Tan Y J,Zhang H D,et al.Design and implementation of geological survey project management system[J].Geol Rev,2015,61(S1):872-873. [20] 吴晓红,罗晓玲.地质调查网站群技术框架浅析[J].中国矿业,2017,26(S1):75-78. Wu X H,Luo X L.Analysis of the technical framework of geolo-gical survey website group[J].China Min Mag,2017,26(S1):75-78. [21] 张辉旭,金克谟.国土资源部重点实验室[M].北京:地质出版社,2014:109-112. Zhang H X,Jin K M.Key Laboratory of the Ministry of Land and Resources[M].Beijing:Geology Press,2014:109-112. [22] 谭永杰,李景朝,王永志,等.全国矿业权实地核查信息系统建设与应用[M].北京:科学出版社,2012. Tan Y J,Li J C,Wng Y Z,et al.Construction and Application of the National Mining Rights Field Verification Information System[M].Beijaing:Science Press,2012. [23] 李景朝,董国臣,文辉,等.全国自然重砂资料应用实例[M].北京:地质出版社,2015. Li J C,Dong G C,Wen H,et al.Application Example of National Natural Heavy Sand Data[M].Beijing:Geology Press,2015. [24] 张明华,乔计花,赵更新,等.重力数据在全国矿产资源潜力评价中应用研究[M].北京:地质出版社,2017. Zhang M H,Qiao J H,Zhao G X,et al.Research on the Application of Gravity Data in the Evaluation of National Mineral Resources Potential[M].Beijing:Geology Press,2017. [25] 向运川,牟绪赞,任天祥.全国矿产资源潜力评价化探资料应用研究[M].北京:地质出版社,2018. Xiang Y C,Mou X Z,Ren T X.Applied Research on Geochemical Prospecting Data for National Mineral Resource Potential Evaluation[M].Beijing:Geology Press,2018.