基于.NET平台的炼铁生产管理系统的设计与实现
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摘要
在信息化与工业化高度结合的今天,信息已成为生产中的计划、控制、管理、统计、分析的核心技术。本文开发的是实用性较高的炼铁生产管理系统,系统目的是研究确定炼铁过程生产信息的搜集整理,达到有序共享,为各级者提供数据信息,使他们能够准确掌握生产状况,制定相应的生产策略以及设备的检测和维护策略,并为以后的生产专家系统提供数据支撑。
系统结合生产实际,综合了整个生产流程,其中主要包括:设备管理、物资管理、炼铁操作、数据采集、数据统计计算。由于本系统面向的主要对象是钢铁企业中的炼铁厂,并且是基于企业内部的局域网,因此,可采用原有的中心数据库并配以实时数据库,处理物资出入库、设备台帐、实时及离线数据,达到数据共享。
该成果已通过国家相关部门的鉴定,结论是该成果对于促进集团公司信息化带动工业化,加快发展信息技术,应用信息技术改造提升传统产业,提高信息技术的自主创新能力,能够起到积极的推动作用。
本文创新点在于针对了炼铁行业的特点,采用底层框架+上层实现的多层开发模式,使系统具有良好的可扩展性,将基础服务剥离出来,完全满足炼铁企业生产管理的要求。
本文对基于.NET平台的炼铁生产管理系统进行了应用研究,并对实时数据曲线的实现方法进行了重点研究。本文研究了不安装自定义控件条件下实时数据曲线的现实方法以及在服务器端的处理逻辑,并给出了实现要点。
本文最后系统的应用和效益进行了分析,并对开发过程的积累的经验进行总结。
At a high degree of integration between information and industrialization today, information has become a plan, control, management, statistical analysis of the core technology in the production. The paper studies the iron production management system which has high availability, and the aim of the system is to collect the production information . In order to share in an orderly manner, it also provides information to operators, so that they can take over accurate production situation. It helps them to formulate strategy and the corresponding production equipment testing and maintenance strategies, and for the subsequent production of expert systems to provide data support.
The system combines the real Production, and integrates the whole production process, which includes: equipment management, material management, iron-smelting operation, data collection, and data statistics. Since this system is the mainly target for the iron works in iron and steel enterprises, and is based on the internal LAN, therefore, can use the original central database and real-time database to handle the storage of materials, equipment accounting, real-time ,offline data and data sharing .
Relevant departments has identified the results, and they draw a conclusion that the results Play a positive role in informatization of Groups, industrialization, upgrading traditional industries by information technology, and improving the capability of independent innovation of information technology.
In this paper, innovation is aimed at the characteristics of the iron industry, using the bottom of the framework + the upper mode to achieve the multi-storey development, the system has good scalability, basic services will be spun off, fully meet the iron requirements of production management.
This paper researches the iron production management system which is based on. NET platform and also researches the realization of real-time data curve methods. This paper researches realization method of the reality of real-time data curve which is under the conditions of installed custom controls as well as in server-side processing logic, and gives the main points of realization.
In this paper’s last section, author analyzes the application and effectiveness of the systems and summing up the experience during development process.
系统结合生产实际,综合了整个生产流程,其中主要包括:设备管理、物资管理、炼铁操作、数据采集、数据统计计算。由于本系统面向的主要对象是钢铁企业中的炼铁厂,并且是基于企业内部的局域网,因此,可采用原有的中心数据库并配以实时数据库,处理物资出入库、设备台帐、实时及离线数据,达到数据共享。
该成果已通过国家相关部门的鉴定,结论是该成果对于促进集团公司信息化带动工业化,加快发展信息技术,应用信息技术改造提升传统产业,提高信息技术的自主创新能力,能够起到积极的推动作用。
本文创新点在于针对了炼铁行业的特点,采用底层框架+上层实现的多层开发模式,使系统具有良好的可扩展性,将基础服务剥离出来,完全满足炼铁企业生产管理的要求。
本文对基于.NET平台的炼铁生产管理系统进行了应用研究,并对实时数据曲线的实现方法进行了重点研究。本文研究了不安装自定义控件条件下实时数据曲线的现实方法以及在服务器端的处理逻辑,并给出了实现要点。
本文最后系统的应用和效益进行了分析,并对开发过程的积累的经验进行总结。
At a high degree of integration between information and industrialization today, information has become a plan, control, management, statistical analysis of the core technology in the production. The paper studies the iron production management system which has high availability, and the aim of the system is to collect the production information . In order to share in an orderly manner, it also provides information to operators, so that they can take over accurate production situation. It helps them to formulate strategy and the corresponding production equipment testing and maintenance strategies, and for the subsequent production of expert systems to provide data support.
The system combines the real Production, and integrates the whole production process, which includes: equipment management, material management, iron-smelting operation, data collection, and data statistics. Since this system is the mainly target for the iron works in iron and steel enterprises, and is based on the internal LAN, therefore, can use the original central database and real-time database to handle the storage of materials, equipment accounting, real-time ,offline data and data sharing .
Relevant departments has identified the results, and they draw a conclusion that the results Play a positive role in informatization of Groups, industrialization, upgrading traditional industries by information technology, and improving the capability of independent innovation of information technology.
In this paper, innovation is aimed at the characteristics of the iron industry, using the bottom of the framework + the upper mode to achieve the multi-storey development, the system has good scalability, basic services will be spun off, fully meet the iron requirements of production management.
This paper researches the iron production management system which is based on. NET platform and also researches the realization of real-time data curve methods. This paper researches realization method of the reality of real-time data curve which is under the conditions of installed custom controls as well as in server-side processing logic, and gives the main points of realization.
In this paper’s last section, author analyzes the application and effectiveness of the systems and summing up the experience during development process.
引文
[1] Cai Y,Li T k. Integrated system for make-to-order production management in iron and steel enterprises[J].Beijing Keji Daxue Xuebao/Journal of University of Science and Technology Beijing,2008,30(3):302-306.
[2]杨志,张辉.基于B/S嵌入式解决方案在模具生产管理系统中的应用[J].微电子学与计算机.2007,24(2):215-216.[3] H. K. Khalil. Nonlinear systems. 3 ed: Pentice Hall, 2002.
[3]黄志伟,邵之江,钱积新.基于Intranet的综合自动化信息集成平台[J].化工自动化及仪表,1998,25(5):162-163.
[4] Liu B,Jin T J,Ma Y L.Key technologies in project-driven Hierarchical Information System of Production Management (HISPM)[J].Applied Mechanics and Materials,2008,10(12):121-126.
[5] Singhal K,Singhal J,Starr M.The domain of production and operations management and the role of Elwood Buffa in its delineation[J].Journal of Operations Management,2007,25(2): 310-327.
[6]王明,刘立新,张核铭,等.基于.NET平台的生产管理系统设计与实现[J].无线电工程.2008, 38(5):10-12.
[7]范玉顺,李慧芳.企业集成技术的研究现状与发展趋势[J].中国制造业信息化,2003,32(1):59-61,70.
[8]修乾.基于Web的.NET应用系统开发.计算机工程,2003,29(21):185~187.
[9]陈满意,陈定方.面向快速响应的机械产品集成设计系统研究[J].武汉理工大学学报,2002,24(11):80-82,86.
[10]俞涛,吕震,方明伦,等.应用软件系统在PDM平台上的集成机制及其实现[J].中国机械工程,2002,11(12):1379-1381.
[11] Koskela L,Ballard G.Should project management be based on theories of economics or production[J].Building Research and Information,2006,34(2):154-163.
[12]韩立巧,张传生.基于SOAP技术构建Web服务的研究.计算机工程2003,29(10):92-95.
[13] Zhou S Q,Ling W Q,Peng Z X.An RFID-based remote monitoring system for enterprise internal production management [J].International Journal of Advanced Manufacturing Technology,2007,33(7-8):837-844.
[14]胡寿松.自动控制原理[M].北京:科学出版社,2001.
[15] Schuh G,Gottschalk S,Hohne T.High Resolution Production Management[J].CIRP Annals - Manufacturing Technology,2007,56(1):439-442.
[16]赵争.基于ASP.NET技术的Web应用系统安全机制分析与设计[J].计算机科学,2008,35(2):104-106.
[17]丁晟春,顾德访..NET平台下信息系统的集成设计与应用[J].计算机应用与软件,2006,12(12):64-66.
[18]贺金凌.基于.NET平台的WEB解决方案的安全机制[J].计算机应用与软件,2002,19(11):19-20.
[19]谭骏珊,吴昌盛.基于B/S模式应用系统性能优化的研究[J].计算机应用,2003,23(1):70-72.
[20]岳国华.提高ORACLE8i数据库响应速度的若干技术对策[J].计算机应用与软件,2004,21(5):110-112.
[21]张小波,成良玉. vs.net中存储过程使用方法研究[J].计算机应用,2004,24(2):138-140.
[22]王红斌,王高峰,路振毅,等.太钢高炉生产管理原则及体系[J].炼铁,2004,23(2):6-8.
[23]刘祥官,曾九孙,郝志忠,等.多模型集成的高炉炼铁智能控制专家系统[J].浙江大学学报,2007,41(10):1637-1642.
[24]华瑶,李智毅,吕冰.我国企业信息化建设策略及发展趋势.情报科学,2005,23(12):1777-1781.
[25] Brown , Mike . Collaborative production management in the process industries[J].Solutions,2006,89(6):20-23.
[26] Hsu,Chih-Hung.Data mining to improve industrial standards and enhance production and marketing[J].Expert Systems with Applications,2009,36(3):4185-4191.
[27] Rosu , Magdalena , Doicin , et al.. Quality and cost in production management process[J].Strojniski Vestnik/Journal of Mechanical Engineering,2008,54(3):207-218.
[28] Graham , Lewis , Ryan , et al.. Distributed Production Management System[J].Photogrammetric Engineering and Remote Sensing,2007,73(5):487-491.
[29] Sakai,Hirohisa,Amasaka,et al.. Demonstrative verification study for the next generation production model: Application of the advanced Toyota Production System[J].Journal of Advanced Manufacturing Systems,2008,7(2):195-219.
[30] WANG H Q,ZHANG M Y,XU D M,et al.. A framework of fuzzy diagnosis [J].IEEE Trans-action on Knowledge and Data Enginering,2004,16(12):1571-1582.
[31]郑静,杜秀华.基于B/S模式的电力系统图形操作界面的实现[J].微型电脑应用,2004,20(4):35-37.
[32] ZENG J S,LIU X G,ZHAO M M.Matical model and its hybrid dynamic mechanism in intelligent control of iron-making [J].Journal of Iron and Steel Research International,2007,14(1):7-11.
[33]谢德芳.攀钢首个火车计量站实现自动化管理[J].冶金自动化,2007,32(2):44-44.
[34]刘波.基于RIA的AJAX和Silverlight研究与应用[D].西北大学出版社,2008.
[35]倪峥.利用GDI+和ASP.NET实现Web图形的动态生成[J].信息技术,2005,(11):81-83.
[36]施金良,贾碧,余群威,等.人工智能高炉冶炼过程专家系统[J].重庆大学学报,2005,28(5):63-67,85.
[2]杨志,张辉.基于B/S嵌入式解决方案在模具生产管理系统中的应用[J].微电子学与计算机.2007,24(2):215-216.[3] H. K. Khalil. Nonlinear systems. 3 ed: Pentice Hall, 2002.
[3]黄志伟,邵之江,钱积新.基于Intranet的综合自动化信息集成平台[J].化工自动化及仪表,1998,25(5):162-163.
[4] Liu B,Jin T J,Ma Y L.Key technologies in project-driven Hierarchical Information System of Production Management (HISPM)[J].Applied Mechanics and Materials,2008,10(12):121-126.
[5] Singhal K,Singhal J,Starr M.The domain of production and operations management and the role of Elwood Buffa in its delineation[J].Journal of Operations Management,2007,25(2): 310-327.
[6]王明,刘立新,张核铭,等.基于.NET平台的生产管理系统设计与实现[J].无线电工程.2008, 38(5):10-12.
[7]范玉顺,李慧芳.企业集成技术的研究现状与发展趋势[J].中国制造业信息化,2003,32(1):59-61,70.
[8]修乾.基于Web的.NET应用系统开发.计算机工程,2003,29(21):185~187.
[9]陈满意,陈定方.面向快速响应的机械产品集成设计系统研究[J].武汉理工大学学报,2002,24(11):80-82,86.
[10]俞涛,吕震,方明伦,等.应用软件系统在PDM平台上的集成机制及其实现[J].中国机械工程,2002,11(12):1379-1381.
[11] Koskela L,Ballard G.Should project management be based on theories of economics or production[J].Building Research and Information,2006,34(2):154-163.
[12]韩立巧,张传生.基于SOAP技术构建Web服务的研究.计算机工程2003,29(10):92-95.
[13] Zhou S Q,Ling W Q,Peng Z X.An RFID-based remote monitoring system for enterprise internal production management [J].International Journal of Advanced Manufacturing Technology,2007,33(7-8):837-844.
[14]胡寿松.自动控制原理[M].北京:科学出版社,2001.
[15] Schuh G,Gottschalk S,Hohne T.High Resolution Production Management[J].CIRP Annals - Manufacturing Technology,2007,56(1):439-442.
[16]赵争.基于ASP.NET技术的Web应用系统安全机制分析与设计[J].计算机科学,2008,35(2):104-106.
[17]丁晟春,顾德访..NET平台下信息系统的集成设计与应用[J].计算机应用与软件,2006,12(12):64-66.
[18]贺金凌.基于.NET平台的WEB解决方案的安全机制[J].计算机应用与软件,2002,19(11):19-20.
[19]谭骏珊,吴昌盛.基于B/S模式应用系统性能优化的研究[J].计算机应用,2003,23(1):70-72.
[20]岳国华.提高ORACLE8i数据库响应速度的若干技术对策[J].计算机应用与软件,2004,21(5):110-112.
[21]张小波,成良玉. vs.net中存储过程使用方法研究[J].计算机应用,2004,24(2):138-140.
[22]王红斌,王高峰,路振毅,等.太钢高炉生产管理原则及体系[J].炼铁,2004,23(2):6-8.
[23]刘祥官,曾九孙,郝志忠,等.多模型集成的高炉炼铁智能控制专家系统[J].浙江大学学报,2007,41(10):1637-1642.
[24]华瑶,李智毅,吕冰.我国企业信息化建设策略及发展趋势.情报科学,2005,23(12):1777-1781.
[25] Brown , Mike . Collaborative production management in the process industries[J].Solutions,2006,89(6):20-23.
[26] Hsu,Chih-Hung.Data mining to improve industrial standards and enhance production and marketing[J].Expert Systems with Applications,2009,36(3):4185-4191.
[27] Rosu , Magdalena , Doicin , et al.. Quality and cost in production management process[J].Strojniski Vestnik/Journal of Mechanical Engineering,2008,54(3):207-218.
[28] Graham , Lewis , Ryan , et al.. Distributed Production Management System[J].Photogrammetric Engineering and Remote Sensing,2007,73(5):487-491.
[29] Sakai,Hirohisa,Amasaka,et al.. Demonstrative verification study for the next generation production model: Application of the advanced Toyota Production System[J].Journal of Advanced Manufacturing Systems,2008,7(2):195-219.
[30] WANG H Q,ZHANG M Y,XU D M,et al.. A framework of fuzzy diagnosis [J].IEEE Trans-action on Knowledge and Data Enginering,2004,16(12):1571-1582.
[31]郑静,杜秀华.基于B/S模式的电力系统图形操作界面的实现[J].微型电脑应用,2004,20(4):35-37.
[32] ZENG J S,LIU X G,ZHAO M M.Matical model and its hybrid dynamic mechanism in intelligent control of iron-making [J].Journal of Iron and Steel Research International,2007,14(1):7-11.
[33]谢德芳.攀钢首个火车计量站实现自动化管理[J].冶金自动化,2007,32(2):44-44.
[34]刘波.基于RIA的AJAX和Silverlight研究与应用[D].西北大学出版社,2008.
[35]倪峥.利用GDI+和ASP.NET实现Web图形的动态生成[J].信息技术,2005,(11):81-83.
[36]施金良,贾碧,余群威,等.人工智能高炉冶炼过程专家系统[J].重庆大学学报,2005,28(5):63-67,85.