自然资源要素综合观测一体化平台建设探索与实践

doi:10.19388/j.zgdzdc.2021.02.09

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Abstract The comprehensive observation integration platform for natural resource elements is the assemble of network operation and management, the collection, transmission, preservation, mining, sharing of the observed data, and the mature achievements, which is the core of observation station network. The overall framework, management system, characteristics and advantages have been analyzed in this paper to introduce the construction situation of the comprehensive observation platform. The construction practice of the comprehensive observation integration platform is expounded through data integration, multi-source data fusion and model loading application, combined with the ongoing project. Finally, the focus, direction and technical application of the future work about the comprebensive observation integration platform are forecasted.

Key words： exploration and practice integration platform comprehensive observation natural resource elements

Received: 21 January 2021

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	Articles by authors
	HE Yinfeng
	LUO Qi
	GAO Yang
	LIU Jiufen

Cite this article:

HE Yinfeng,LUO Qi,GAO Yang, et al. Exploration and practice on the construction of the comprehensive observation integration platform for natural resource elements[J]. , 2021, 8(2): 55-61.

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http://journal25.magtechjournal.com/Jwk_dzdc/EN/10.19388/j.zgdzdc.2021.02.09 OR http://journal25.magtechjournal.com/Jwk_dzdc/EN/Y2021/V8/I2/55

[1] 自然资源部办公厅.关于做好自然资源要素综合观测工作的函:自然资办函[2019]1855号[A].北京:自然资源部办公厅,2019.
General Office of the Ministry of Natural Resources.Letter on Doing a Good Job in Comprehensive Observation of Natural Resources Elements:Natural Resources Office Letter[2019]No.1855[A].Beijing:General Office of the Ministry of Natural Resources,2019.
[2] 刘晓煌,刘晓洁,程书波,等.中国自然资源要素综合观测网络构建与关键技术[J].资源科学,2020,42(10):1849-1859.
Liu X H,Liu X J,Cheng S B,et al.Construction of a national na-tural resources comprehensive observation system and key techno-logies[J].Resour Sci,2020,42(10):1849-1859.
[3] 李晓波,祝孔强,贾光宇,等.科学数据共享技术平台构想[J].中国基础科学,2003,3(1):50-55.
Li X B,Zhu K Q,Jia G Y,et al.Ideas for platform of scientific data sharing[J].China Basic Sci,2003,3(1):50-55.
[4] 安基文,庄大方,袁文.面向地学计算的资源环境科学数据共享平台的设计[J].地球信息科学,2007,9(3):34-39.
An J W,Zhuang D F,Yuan W.Design for geoscience computing oriented resources and environmental science data sharing platform[J].Geo-Inf Sci,2007,9(3):34-39.
[5] 赵军,杨凯.自然资源与环境价值评估:条件估值法及应用原则探讨[J].自然资源学报,2006,21(5):834-843.
Zhao J,Yang K.Valuation of natural resources and environment:contingent valuation method and its application principles in China[J].J Nat Resour,2006,21(5):834-843.
[6] 陈波翀,郝寿义.自然资源对中国城市化水平的影响研究[J].自然资源学报,2005,20(3):394-399.
Chen B C,Hao S Y.Research on the impact of natural resources on urbanization level of China[J].J Nat Resour,2005,20(3):394-399.
[7] 张云翼,林佳瑞,张建平.BIM与云、大数据、物联网等技术的集成应用现状与未来[J].图学学报,2018,39(5):806-816.
Zhang Y Y,Lin J R,Zhang J P.Present and future of integrated applications of BIM,cloud computing,big data and internet of things[J].J Graph,2018,39(5):806-816.
[8] 刘小飞,关昆,于海波,等.多源多目标空间数据库的一体化集成与管理技术研究[J].测绘通报,2014(12):97-100.
Liu X F,Guan K,Yu H B,et al.Research of integration and ma-nagement of multi-source multi-target geospatial database[J].Bull Surv Mapp,2014(12):97-100.
[9] 化柏林,李广建.大数据环境下多源信息融合的理论与应用探讨[J].图书情报工作,2015,59(16):5-10.
Hua B L,Li G J.Discussion on theory and application of multi-source information fusion in big data environment[J].Libr Inf Serv,2015,59(16):5-10.
[10] 马占东,高航,杨俊,等.基于多源数据融合的南四湖湿地生态系统服务功能价值评估[J].资源科学,2014,36(4):840-847.
Ma Z D,Gao H,Yang J,et al.Valuation of Nansihu Lake wetland ecosystem services based on multi-sources data fusion[J].Resour Sci,2014,36(4):840-847.
[11] 邱桂华,吴树鸿,何炎.基于综合能源信息融合的大数据挖据分析与应用[J].低碳世界,2016(11):240-241.
Qiu G H,Wu S H,He Y.Analysis and application of big data mining based on comprehensive energy information fusion[J].Low Carbon World,2016(11):240-241.
[12] 李亚,叶敏.基于大数据的室内网络综合分析系统的研究和应用[J].电信工程技术与标准化,2015,28(3):26-30.
Li Y,Ye M.Research and application of indoor wireless network analysis system based on big data[J].Telecom Eng Tech Stan-dard,2015,28(3):26-30.
[13] 孙益,方梦阳,何建宁,等.基于物联网和数据中台技术的自然资源要素综合观测平台构建[J].资源科学,2020,42(10):1965-1974.
Sun Y,Fang M Y,He J N,et al.Construction of a comprehensive observation platform for natural resource elements based on internet of things and open data processing service technologies[J].Resour Sci,2020,42(10):1965-1974.
[14] 吴文峻,于鑫,蒲彦均,等.微服务时代的复杂服务软件开发[J].计算机科学,2020,47(12):11-17.
Wu W J,Yu X,Pu Y J,et al.Development of complex service software in microservice era[J].Comput Sci,2020,47(12):11-17.
[15] 郭栋,王伟,曾国荪.一种基于微服务架构的新型云件PaaS平台[J].信息网络安全,2015(11):15-20.
Guo D,Wang W,Zeng G S.A new cloudware PaaS platform based on microservices architecture[J].Netinfo Secur,2015(11):15-20.
[16] 李春阳,刘迪,崔蔚,等.基于微服务架构的统一应用开发平台[J].计算机系统应用,2017,26(4):43-48.
Li C Y,Liu D,Cui W,et al.Unified application development platform based on micro-service architecture[J].Comput Syst Appl,2017,26(4):43-48.
[17] 欧阳荣彬,王倩宜,龙新征.基于微服务的数据服务框架设计[J].华中科技大学学报(自然科学版),2016,44(增刊1):126-130.
Ouyang R B,Wang Q Y,Long X Z.A data service framework based on microservices[J].J Huazhong Univ Sci Technol (Nat Sci Ed),2016,44(S1):126-130.
[18] 龙新征,彭一明,李若淼.基于微服务框架的信息服务平台[J].东南大学学报(自然科学版),2017,47(增刊1):48-52.
Long X Z,Peng Y M,Li R M.Information service platform based on microservice framework[J].J Southeast Univ (Nat Sci Ed),2017,47(S1):48-52.
[19] 黄小锋,张晶.微服务框架介绍与实现[J].电脑与信息技术,2016,24(6):14-16.
Huang X F,Zhang J.Introduction and implementation of microservice architecture[J].Comput Inf Technol,2016,24(6):14-16.
[20] 李贞昊. 微服务架构的发展与影响分析[J].信息系统工程,2017(1):154-155.
Li Z H.Analysis of the development and impact of microservice architecture[J].China CIO News,2017(1):154-155.