水泥企业综合信息化系统的研究与应用
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摘要
本文针对水泥企业综合信息化系统作了详细的讨论和研究。使用大型实时/历史数据库和关系数据库建了全厂统一的数据处理平台。重点研究了水泥企业综合信息系统架构,提出水泥行业中各种监测、控制系统的数据集成的有效方法以及数据的应用,解决目前水泥企业中日益严重的信息孤岛的问题。将水泥企业安全生产监控、生产调度、及企业管理等综合数据在企业局域网中进行集成和共享,真正实现了企业信息融合。充分利用企业现有的网络资源,使各级管理部门能实时掌握情况,实现企业数据的集成和有效利用,具体研究内容如下:
研究分析了水泥企业综合信息化系统的需求和架构的设计,分析了系统的主要功能模块,结合水泥生产的特点研究了一种三层结构的水泥企业信息系统,即用户交互层、功能服务层和数据处理层,这种结构更符合现代企业生产管理结构的“扁平化”思想;通过分析水泥企业综合信息化系统对数据库的要求,构建了基于实时数据库和关系数据库的数据访问平台,研究了数据访问平台的具体应用。
论文中分析了系统实时监测画面数据的刷新技术,研究了一种从系统框架上应用Ajax技术的Web应用解决方案,有效的解决了网络数据同步刷新问题;结合组件设计思想,在Visual C++.NET开发环境中设计开发了趋势分析与故障诊断模块,实现了网络远程在线诊断功能;采用模块化的设计思想开发报表系统,可以根据不同部门的要求,将模块重新组合,降低了二次开发的难度,使各函数模块可以被多个系统共享,避免重复开发。
本课题自主开发的综合信息化系统在淄博东华水泥公司得到了成功应用。
Cement enterprise integrated information system was discussed and studied amply in this paper. Based on the domestic large real-time/historical database and relational database we established a uniform data processing platform.We focused on cement integrated information system architecture, proposed an effective method of data integration and data applications in monitoring and control system, and solved the increasingly serious problem of information isolated island. We could integrate and share the data of cement production safety monitoring, production scheduling, and corporate management in the enterprise LAN,truly realized enterprise information integration,make the most of enterprise existing network resources, management departments at all levels could grasp the situation in real time, realized effective management of the enterprise.The main contents of this paper are:
We analyzed the cement integrated information system demand and structure design, and then we introduced the main function modules.Combined with the characteristics of cement production we analyzed a three-tier structure of cement enterprise information system, that is user interaction layer, functions service layer and data processing layers, this structure is more consistent with the structure of modern enterprise production management "flat" thinking. Through analysis of requirements on the database of cement integrated information system. We constructed data access platform that based on real-time database and relational database, and then studied the specific application of the data access platform.
In this paper we analyzed the real-time supervisory data refresh technology; and analyzed a kind of Web application solution which applied Ajax technology in system frame. This method effectively solved the problem of network data synchronization refresh;Combined with component design thought, we designed trend analysis and fault diagnosis module in the Visual C++.NET development environment, this two module implemented remote network diagnostic function; The report system, which was designed by modular design thought, could reorganize the module according to the requirements of different departments. Using this method can it reduce the difficulty of the secondary development, so that each function module can be shared by multiple systems to avoid duplication of development.
The self-developed integrated information system has been successfully applied in ShanDong DongHua cement Co.Ltd.
研究分析了水泥企业综合信息化系统的需求和架构的设计,分析了系统的主要功能模块,结合水泥生产的特点研究了一种三层结构的水泥企业信息系统,即用户交互层、功能服务层和数据处理层,这种结构更符合现代企业生产管理结构的“扁平化”思想;通过分析水泥企业综合信息化系统对数据库的要求,构建了基于实时数据库和关系数据库的数据访问平台,研究了数据访问平台的具体应用。
论文中分析了系统实时监测画面数据的刷新技术,研究了一种从系统框架上应用Ajax技术的Web应用解决方案,有效的解决了网络数据同步刷新问题;结合组件设计思想,在Visual C++.NET开发环境中设计开发了趋势分析与故障诊断模块,实现了网络远程在线诊断功能;采用模块化的设计思想开发报表系统,可以根据不同部门的要求,将模块重新组合,降低了二次开发的难度,使各函数模块可以被多个系统共享,避免重复开发。
本课题自主开发的综合信息化系统在淄博东华水泥公司得到了成功应用。
Cement enterprise integrated information system was discussed and studied amply in this paper. Based on the domestic large real-time/historical database and relational database we established a uniform data processing platform.We focused on cement integrated information system architecture, proposed an effective method of data integration and data applications in monitoring and control system, and solved the increasingly serious problem of information isolated island. We could integrate and share the data of cement production safety monitoring, production scheduling, and corporate management in the enterprise LAN,truly realized enterprise information integration,make the most of enterprise existing network resources, management departments at all levels could grasp the situation in real time, realized effective management of the enterprise.The main contents of this paper are:
We analyzed the cement integrated information system demand and structure design, and then we introduced the main function modules.Combined with the characteristics of cement production we analyzed a three-tier structure of cement enterprise information system, that is user interaction layer, functions service layer and data processing layers, this structure is more consistent with the structure of modern enterprise production management "flat" thinking. Through analysis of requirements on the database of cement integrated information system. We constructed data access platform that based on real-time database and relational database, and then studied the specific application of the data access platform.
In this paper we analyzed the real-time supervisory data refresh technology; and analyzed a kind of Web application solution which applied Ajax technology in system frame. This method effectively solved the problem of network data synchronization refresh;Combined with component design thought, we designed trend analysis and fault diagnosis module in the Visual C++.NET development environment, this two module implemented remote network diagnostic function; The report system, which was designed by modular design thought, could reorganize the module according to the requirements of different departments. Using this method can it reduce the difficulty of the secondary development, so that each function module can be shared by multiple systems to avoid duplication of development.
The self-developed integrated information system has been successfully applied in ShanDong DongHua cement Co.Ltd.
引文
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[2]刘万方,李可.水泥企业信息化建设探讨[J].山东建材,2006(1):37-39.
[3]张毅.企业资源计划(ERP).电子工业出版社.2001.5.
[4]秦芯涛.企业实施ERP的技术解决途径.计算机系统应用.2000.(9)7-9.
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[6]徐井军.水泥厂专业MIS系统的应用[J].水泥,2003(4):62-63.
[7]侯子良.关于厂级自动化概念的探讨,热工自动化信息,1998(1)
[8]侯子良.再论火电厂厂级监控信息系统,电力系统自动化,2002(15).
[9]赵世喜,张丹等.关于水泥企业信息化建设的探讨[J].江苏建材,2004(1):4-6.
[10]邹葱白.水泥企业管理信息系统的开发研究[D].武汉:武汉理工大学,2005.
[11]景绍洪,王孝红等.水泥企业信息系统体系结构研究[J],2007,34(5):1-6.
[12]董荣胜.两层和三层Client/Server结构的分析[J].计算机工程,2000(6):78-80
[13]吴庆星,叶思敏.基于分布式多层次结构的水泥厂MIS系统[J].四川大学学报,2002,34(6):105-108.
[14]楼平.湖州电网变电站综合信息采集及网络发布系统应用研究[D].北京:华北电力大学,2007.
[15]程利先.PI实时数据库在电厂中的应用[D].北京:华北电力大学,2006.
[16]俞峰苹.基于PI数据库的SIS系统的研究[D].南京:东南大学,2005.
[17]张志檩.实时数据库原理及应用[M],中国石化出版社,2001 75-80.
[18]刘云生.实时数据库系统及其特征[J].华中理工大学学报,1994(6):66-70.
[19]张晨艳.实时数据库系统特征及事务处理[J].仪器仪表标准化与计量,2001(4):8-10.
[20]拓广忠,慕群.实时数据库原理及其压缩技术分析[J].华北电力技术,2004(6):17-20.
[21]陈鑫铎.实时历史数据库架构和实时数据压缩算法的设计与实现[D].成都:电子科技大学,2008.
[22]郝文义,王艳萍等.工业实时数据库系统[J].包钢科技,2006(32):55-56.
[23]尚运,王海龙.工业控制中实时数据库系统的研究[J].甘肃科技,2006(22):70-72.
[24]郑红明.企业综合信息管理系统设计研究[D].南昌:江西财经大学,2006.
[25]赵洪彪.数据库与www的集成[J].计算机科学,1997:31(6):56-58.
[26]Jones Rodley.Web与Internet数据库开发[M].机械工业出版社,2007.
[27]徐慧.实时数据库中数据压缩算法的研究[D].杭州:浙江大学,2006.
[28]汤同奎,王豪等.过程数据压缩技术综述[J].计算机与应用化学,2000,17(3):193-197.
[29]关中辉,贺玉凯.实时数据库系统中数据压缩技术的研究[J].现代电子技术,2006,12:85-87.
[30]Langen P A.Theuse of historical data storage and retrieval systems at nuclear power plants. IEEE Trans Nuclear Sci,1984,NS231:844-848.
[31]Mah. R. S. H.,Tamhane, A. C.,Tung, S. H. etc. Process trending with piecewise linear smoothing.Comput Chem Engng,1995,19(2):129-137.
[32]E. H.Bristol.Swinging Door Trending:Adaptive Trend Recording? Advances in Instrumentation, Proceeding,1990,Vol.45(2):749-754.
[33]Hale J C, Sellas H L. Historical data recording for process. Compute Chem Eng Prog,1981,77(1):38-43.
[34]王正洪.改进的SDT算法及其在过程数据压缩中的应用[J].煤矿自动化,2000,6:9-11.
[35]何星,李根蔚.分段线性趋势数据压缩算法在电力调度系统中的应用[J].测控技术,2003,22(4):24-26.
[36]赵众,顾幸生,蒋慰孙.基于正交小波变换的化工生产过程数据分析[J].华东理工大学学报,1998,24(2):192-197,234.
[37]T. A. Welch. A technique for high performance data compression.IEEE computer,1984,17(6):8-18.
[38]王有礼.ASP.NET 2.0完全开发指南[M].北京:北京科海电子出版社,2008.1.
[39]奚江华,圣殿祭祀的ASP.NET 2.0开发详解[M].电子工业出版社,2007.9.
[40]张跃廷等ASP.NET程序开发范例宝典[M].北京:人民邮电出版社,2007.3.
[41]陈冠军.精通ASP.NET 2.0企业级项目开发[M].北京:人民邮电出版社,2007.2.
[42]樊月华等.Web技术应用基础[M].北京:清华大学出版社,2006.1
[43]董大为.ASP.NET AJAX应用剖析立即上手[M].电子工业出版社,2007.12.
[44]包艳妮.用于WEB组态软件的组件技术的研究与实现[D].大连:大连理工大学,2007.
[45]周敬华,江东胜等.基于组件的软件开发及应用[J].计算机应用研究,1999(10):74-75.
[46]王珉,吴广茂等.基于组件开发的组件选择过程[J].计算机应用研究,2006(10):70-72.
[47]明日科技.Visual C++开发经验技术宝典[M].北京:人民邮电出版社,2007.11.
[48]李健,杜灵.VBA技术在动态电子表格中的应用[J].电脑与信息技术,2001(4):32-35.
[49]徐国平,郭力平等.VBA中文版程序设计与应用[M].北京:清华大学出版社,1998.10.
[50]杨琦Visual C++.Net程序设计案例教程[M].西安:西安交通大学出版社,2007.
[51]Demba Diallo.Fault Dectection and Diagnosis in an Induction Machine Drive:A Pattern Recognition Approach Based on Concordia Stator Mean Current Vector. IEEE TRANSACTIONS ON ENERGY CONVERSION.2005,20(3):512-520.
[52]Fu K S. Learning Control Systems and Intelligent Control System:An Intersection of Artificial Intelligence and Automatic Control.IEEE Trans,1971:AC-16(1):70-72.
[53]Witte,Greg.Modern is action by Medusa Cement takes advantage of distributed control.World Cement,1996,27(3):18-23.
[2]刘万方,李可.水泥企业信息化建设探讨[J].山东建材,2006(1):37-39.
[3]张毅.企业资源计划(ERP).电子工业出版社.2001.5.
[4]秦芯涛.企业实施ERP的技术解决途径.计算机系统应用.2000.(9)7-9.
[5]潘丽卿,付伟.关于制造业信息化的几点思考[J].厦门大学学报,2003(42):119-122.
[6]徐井军.水泥厂专业MIS系统的应用[J].水泥,2003(4):62-63.
[7]侯子良.关于厂级自动化概念的探讨,热工自动化信息,1998(1)
[8]侯子良.再论火电厂厂级监控信息系统,电力系统自动化,2002(15).
[9]赵世喜,张丹等.关于水泥企业信息化建设的探讨[J].江苏建材,2004(1):4-6.
[10]邹葱白.水泥企业管理信息系统的开发研究[D].武汉:武汉理工大学,2005.
[11]景绍洪,王孝红等.水泥企业信息系统体系结构研究[J],2007,34(5):1-6.
[12]董荣胜.两层和三层Client/Server结构的分析[J].计算机工程,2000(6):78-80
[13]吴庆星,叶思敏.基于分布式多层次结构的水泥厂MIS系统[J].四川大学学报,2002,34(6):105-108.
[14]楼平.湖州电网变电站综合信息采集及网络发布系统应用研究[D].北京:华北电力大学,2007.
[15]程利先.PI实时数据库在电厂中的应用[D].北京:华北电力大学,2006.
[16]俞峰苹.基于PI数据库的SIS系统的研究[D].南京:东南大学,2005.
[17]张志檩.实时数据库原理及应用[M],中国石化出版社,2001 75-80.
[18]刘云生.实时数据库系统及其特征[J].华中理工大学学报,1994(6):66-70.
[19]张晨艳.实时数据库系统特征及事务处理[J].仪器仪表标准化与计量,2001(4):8-10.
[20]拓广忠,慕群.实时数据库原理及其压缩技术分析[J].华北电力技术,2004(6):17-20.
[21]陈鑫铎.实时历史数据库架构和实时数据压缩算法的设计与实现[D].成都:电子科技大学,2008.
[22]郝文义,王艳萍等.工业实时数据库系统[J].包钢科技,2006(32):55-56.
[23]尚运,王海龙.工业控制中实时数据库系统的研究[J].甘肃科技,2006(22):70-72.
[24]郑红明.企业综合信息管理系统设计研究[D].南昌:江西财经大学,2006.
[25]赵洪彪.数据库与www的集成[J].计算机科学,1997:31(6):56-58.
[26]Jones Rodley.Web与Internet数据库开发[M].机械工业出版社,2007.
[27]徐慧.实时数据库中数据压缩算法的研究[D].杭州:浙江大学,2006.
[28]汤同奎,王豪等.过程数据压缩技术综述[J].计算机与应用化学,2000,17(3):193-197.
[29]关中辉,贺玉凯.实时数据库系统中数据压缩技术的研究[J].现代电子技术,2006,12:85-87.
[30]Langen P A.Theuse of historical data storage and retrieval systems at nuclear power plants. IEEE Trans Nuclear Sci,1984,NS231:844-848.
[31]Mah. R. S. H.,Tamhane, A. C.,Tung, S. H. etc. Process trending with piecewise linear smoothing.Comput Chem Engng,1995,19(2):129-137.
[32]E. H.Bristol.Swinging Door Trending:Adaptive Trend Recording? Advances in Instrumentation, Proceeding,1990,Vol.45(2):749-754.
[33]Hale J C, Sellas H L. Historical data recording for process. Compute Chem Eng Prog,1981,77(1):38-43.
[34]王正洪.改进的SDT算法及其在过程数据压缩中的应用[J].煤矿自动化,2000,6:9-11.
[35]何星,李根蔚.分段线性趋势数据压缩算法在电力调度系统中的应用[J].测控技术,2003,22(4):24-26.
[36]赵众,顾幸生,蒋慰孙.基于正交小波变换的化工生产过程数据分析[J].华东理工大学学报,1998,24(2):192-197,234.
[37]T. A. Welch. A technique for high performance data compression.IEEE computer,1984,17(6):8-18.
[38]王有礼.ASP.NET 2.0完全开发指南[M].北京:北京科海电子出版社,2008.1.
[39]奚江华,圣殿祭祀的ASP.NET 2.0开发详解[M].电子工业出版社,2007.9.
[40]张跃廷等ASP.NET程序开发范例宝典[M].北京:人民邮电出版社,2007.3.
[41]陈冠军.精通ASP.NET 2.0企业级项目开发[M].北京:人民邮电出版社,2007.2.
[42]樊月华等.Web技术应用基础[M].北京:清华大学出版社,2006.1
[43]董大为.ASP.NET AJAX应用剖析立即上手[M].电子工业出版社,2007.12.
[44]包艳妮.用于WEB组态软件的组件技术的研究与实现[D].大连:大连理工大学,2007.
[45]周敬华,江东胜等.基于组件的软件开发及应用[J].计算机应用研究,1999(10):74-75.
[46]王珉,吴广茂等.基于组件开发的组件选择过程[J].计算机应用研究,2006(10):70-72.
[47]明日科技.Visual C++开发经验技术宝典[M].北京:人民邮电出版社,2007.11.
[48]李健,杜灵.VBA技术在动态电子表格中的应用[J].电脑与信息技术,2001(4):32-35.
[49]徐国平,郭力平等.VBA中文版程序设计与应用[M].北京:清华大学出版社,1998.10.
[50]杨琦Visual C++.Net程序设计案例教程[M].西安:西安交通大学出版社,2007.
[51]Demba Diallo.Fault Dectection and Diagnosis in an Induction Machine Drive:A Pattern Recognition Approach Based on Concordia Stator Mean Current Vector. IEEE TRANSACTIONS ON ENERGY CONVERSION.2005,20(3):512-520.
[52]Fu K S. Learning Control Systems and Intelligent Control System:An Intersection of Artificial Intelligence and Automatic Control.IEEE Trans,1971:AC-16(1):70-72.
[53]Witte,Greg.Modern is action by Medusa Cement takes advantage of distributed control.World Cement,1996,27(3):18-23.