协同开发环境中采煤塌陷地动态监测监管系统设计与实现
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摘要
经过多年信息化建设沉淀,济宁市国土资源局初步建立起以综合管理服务平台为运行支撑环境,以数据中心和档案系统为资源共享更新载体,以业务系统为应用拓展体系的协同开发环境。为利用现代科技手段辅助采煤塌陷地综合治理,提出了一种协同开发环境下建设采煤塌陷地动态监测监管系统的方法,实现了采煤塌陷地的综合利用、项目管理、业务审批、资金监管、动态监测、预测分析等功能,为采煤塌陷地信息资源的集中管理、统一展现、实时更新和自动归档提供了有力支持,保障了采煤塌陷地业务数据的在线共享,提高了工作效率和信息化水平。
After years of information construction,the cooperation exploitation environment has been built by Jining Bureau of Land and Resources. Integrated management service platform is used as support environment,data centers and archives system are used as carriers of resource sharing and updating,and business systems are applied as application extension system. In order to manage coal mining subsidence by using modern technology,the method of developing dynamic monitoring and supervising system of coal mine subsidence land based on cooperation exploitation environmen has been put forward. Comprehensive utilization,project management,business approval,capital supervision,dynamic monitoring,prediction analysis of coal mine subsidence land have been realized. It will provide strong support for centralized management,unified presentation,real-time updating and automatic archiving of coal mine subsidence land information,protect the coal mining subsidence business data online sharing,improve work efficiency and information technology level.
After years of information construction,the cooperation exploitation environment has been built by Jining Bureau of Land and Resources. Integrated management service platform is used as support environment,data centers and archives system are used as carriers of resource sharing and updating,and business systems are applied as application extension system. In order to manage coal mining subsidence by using modern technology,the method of developing dynamic monitoring and supervising system of coal mine subsidence land based on cooperation exploitation environmen has been put forward. Comprehensive utilization,project management,business approval,capital supervision,dynamic monitoring,prediction analysis of coal mine subsidence land have been realized. It will provide strong support for centralized management,unified presentation,real-time updating and automatic archiving of coal mine subsidence land information,protect the coal mining subsidence business data online sharing,improve work efficiency and information technology level.
引文
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[2]张欣,付尚伟,蔡德水,等.济宁市采煤塌陷地引湖充填复垦模式初探[J].山东国土资源,2012,28(8):42-44.
[3]陈源源,吕昌河,闫弘文.济宁:恢复采煤塌陷地生产生态功能[J].中国土地,2016(6):54-55.
[4]许燕.深度塌陷区复垦对策——以济宁市为例[J].世界有色金属,2016(16):179-181.
[5]胡振琪,李晶,赵艳玲.中国煤炭开采对粮食生产的影响及其协调[J].中国煤炭,2008(2):19-21.
[6]李庆强,苗伟.邹城市采煤塌陷地治理存在的问题及建议[J].山东国土资源,2011,27(4):36-38.
[7]李俊颖,李新举,赵跃伦,等.不同复垦方式对煤矿复垦区土壤养分状况的影响[J].山东农业大学学报(自然科学版),2017,48(2):186-191.
[8]肖越,肖成龙,孙威.基于SOA的云计算模型框架研究[J].电脑知识与技术,2017,13(20):46-47.
[9]李艳,庄海燕,张哲宁.面向SOA架构分布式系统的会话交互建模及其安全验证[J].山东理工大学学报(自然科学版),2017,31(3):20-24.
[10]黄嘉东,徐兵元,叶向阳.企业级应用系统SOA架构建设研究与实践[J].中国高新技术企业,2016(2):159-161.
[11]中国南方电网责任有限公司企业标准.Q/CSG11817-2010.面向服务的信息技术架构(SOA)框架规范[S].
[12]范江波.基于Oracle ESB建设校园服务体系的实践与探索[J].中国教育信息化,2016(19):57-60.
[13]刘焕华.基于Oracle ESB的服务抽取与发布研究[D].长沙:南华大学,2013.
[14]曾文英,赵跃龙,齐德昱.ESB原理、构架、实现及应用[J].计算机工程与应用,2008(25):225-228.
[15]黄强,王薇,倪少权.基于SOA和DDD的铁水联运信息平台构架设计[J].计算机应用与软件,2013,30(6):124-126.
[16]史辉.国土资源数据中心建设探讨[J].山东国土资源,2009,25(11):51-54.
[17]李逵.FME在基础地理信息数据库建设中的应用研究[J].测绘通报,2016(3):115-117.
[18]赵杨,关宁,王俊霖.SOA架构在辽河流域报表管理系统的研究与实践[J].计算机系统应用,2017,26(3):114-118.
[19]王宁,吴侃,刘锦,等.基于Boltzmann函数的开采沉陷预测模型[J].煤炭学报,2013,38(8):1352-1356.
[20]何强,吴侃,许冬.平原地区采煤沉陷积水计算模型构建与影响分析——以洸府河为例[J].金属矿山,2015(3):173-177.
[21]吴侃,黄珍珍,王欣.矿山开采沉陷的完备预计模型[J].煤矿开采,2006(4):4-6.