基于Web Services的水泥生产远程监测系统的研究与开发
摘要
在传统水泥生产监测中,对于工艺参数和生产设备的监测,主要是通过位于中央控制室内的各种监测设备,由现场操作人员予以监测。虽然水泥生产中的各主要环节多已采用了微机监视与控制,自动化水平有了很大的提高,但仍然存在不少问题,如:生产监测受地理位置局限、管理人员无法实施全面监测、生产数据无法共享等。
在分析水泥回转窑工艺流程的基础上,提出了基于B/S结构的远程监测体系结构,监测人员可以随时随地对生产过程进行监测。
研究和构建了基于Web Services水泥生产远程监测系统。系统实现了对生产过程中的工艺参数和主要设备的工作状况进行远程监测的功能,同时,系统提供了水泥生产监测数据远程实时管理功能,并通过多种数据管理方式,辅助生产管理人员积累、分析工艺参数和生产数据,为企业管理人员提供决策支持。
研究了基于Java Applet的监测界面显示技术,并结合Java3D技术改善监测界面的单一性,增强监测系统的人机交互性。
研究Web Services技术的开放和集成特性,提出了水泥生产企业的应用系统集成框架,水泥生产远程监测系统可以自然地集成到企业集成系统当中,生产信息为整个企业所共享,并且监测系统可以与其他应用系统协调工作,为企业发展服务。
In the traditional monitoring of cement producing, the technical parameters and major producing equipments are monitored by operators in central control room. Microcomputers are applied in monitoring and controlling of the major cement producing process nowadays, automated level has been improved remarkably, however, there are many problem, such as: producing monitoring is limited by location, entirely monitoring is impracticable for managers, and the producing information is not able to be shared.
Based on analysising of the technical process of cement rotary kiln, this paper propose a remote monitoring system framework based on B/S, the managers can monitor the producing process in everywhere and everytime.
The remote monitoring system of cement producing Based on Web Services technology is studyed and constructed. The function of remote monitoring technical parameters and major producing equipments is implemented. Meanwhile, the remote and real-time management of cement producing monitoring data is implemented, it assists producing managers accumulating and analyzing technical parameters and producing data via many different manners of data management, and provides decision support for superintend.
The display technology of monitoring interface based on Java Applet is studied, it improves the oneness of monitoring interface with Java3D technology, and enhances the interaction of human-machine.
Based on opening and integrating characteristic of Web Services technology, a system application integration framework of cement producing enterprise is proposed, the remote monitoring system of cement producing can be compatibly integrated with the framework, the producing information is able to be shared within the whole enterprise. Services for enterprise developing are provided by the monitoring system associated with other application.
在分析水泥回转窑工艺流程的基础上,提出了基于B/S结构的远程监测体系结构,监测人员可以随时随地对生产过程进行监测。
研究和构建了基于Web Services水泥生产远程监测系统。系统实现了对生产过程中的工艺参数和主要设备的工作状况进行远程监测的功能,同时,系统提供了水泥生产监测数据远程实时管理功能,并通过多种数据管理方式,辅助生产管理人员积累、分析工艺参数和生产数据,为企业管理人员提供决策支持。
研究了基于Java Applet的监测界面显示技术,并结合Java3D技术改善监测界面的单一性,增强监测系统的人机交互性。
研究Web Services技术的开放和集成特性,提出了水泥生产企业的应用系统集成框架,水泥生产远程监测系统可以自然地集成到企业集成系统当中,生产信息为整个企业所共享,并且监测系统可以与其他应用系统协调工作,为企业发展服务。
In the traditional monitoring of cement producing, the technical parameters and major producing equipments are monitored by operators in central control room. Microcomputers are applied in monitoring and controlling of the major cement producing process nowadays, automated level has been improved remarkably, however, there are many problem, such as: producing monitoring is limited by location, entirely monitoring is impracticable for managers, and the producing information is not able to be shared.
Based on analysising of the technical process of cement rotary kiln, this paper propose a remote monitoring system framework based on B/S, the managers can monitor the producing process in everywhere and everytime.
The remote monitoring system of cement producing Based on Web Services technology is studyed and constructed. The function of remote monitoring technical parameters and major producing equipments is implemented. Meanwhile, the remote and real-time management of cement producing monitoring data is implemented, it assists producing managers accumulating and analyzing technical parameters and producing data via many different manners of data management, and provides decision support for superintend.
The display technology of monitoring interface based on Java Applet is studied, it improves the oneness of monitoring interface with Java3D technology, and enhances the interaction of human-machine.
Based on opening and integrating characteristic of Web Services technology, a system application integration framework of cement producing enterprise is proposed, the remote monitoring system of cement producing can be compatibly integrated with the framework, the producing information is able to be shared within the whole enterprise. Services for enterprise developing are provided by the monitoring system associated with other application.
引文
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[45] 王滨,黄永峰,许晓东.基于SOA的应用程序框架研究与实现[J].计算机工程与设计,2006,27(7):1198-1200
[46] 郝文育,杨雨图,王宁生.基于Web Services的ERP四层体系结构研究[J].机械科学与技术,2005,24(2):176-178
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[48] Roger L. Mclntosh. Open-Source Tools for Distributed Device Control Within a Service-Oriented Architecture[J]. JALA, 2004, 9: 404-410
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[2] 孔祥忠.水泥新政已定基调结构调整仍为主题.[J].中国水泥,2007,1:7-11
[3] 蒋全胜,吕家云.设备远程监测诊断系统的JAVA技术实现[J].太原科技大学学报,2005,26(3):220~223
[4] 熊良才,何岭松.基于Web的轧机状态监测与故障诊断系统研究[J].钢铁,2000,35(9):65~68
[5] 周强,王宝祥,许世范.网上实时监测系统设计与实现[J].制造业自动化,2001,23(8):22~14
[6] 刘俊峰,赵恒永.基于B/S结构的工业生产数据监测系统的实现[J].计算机工程与设计,2004,25(2):288~290
[7] 张红先,曹一家,汪新秀.一种基于Web技术的远程监测系统[J].电网技术,2003,27(6):33~35
[8] 夏之云.水泥工厂自动化及其设计[J].水泥技术,2000,(3):11-14
[9] http://www-128.ibm.corn/developerworks/cn/webservices/ws-theme/ws-soa.html[EB/OL]
[10] David Chappell, Tyler Jewell. Java Web Services[M]. O'Reilly, 2002
[11] Doug Tidwell, James Snell, Pavel Kulchenko. Programming Web Services with SOAP[M]. O'Reilly, 2001
[12] http://www.w3.org/TR/wsdl[EB/OL]
[13] http://uddi.org/pubs/Operators-V2.01-Published-20020719.htm[EB/OL]
[14] Chung J Y, Lin K J, Mathieu R G. Web Services Computing: Advancing Software Interoperability[J]. IEEE Computer Society, 2003, 11: 35-37
[15] http://www.w3.org/TR/2000/NOTE-SOAP-20000508/[EB/OL]
[16] 李安渝.Web Services技术与实现[M].国防工业出版社,2003
[17] 杨力,杨锦林,曹谢东.分布式计算在数字化气田中的应用[J].计算机工程,2006,32(10):243-245
[18] 陈少君,程晓.XML Web Services技术在电厂级信息监控系统的应用研究[J].电力系统通信,2006,27(159):40-43
[19] 孟亮,魏生民,杨楠,张佳宇.基于Web Services的远程动力监控系统[J].微型电脑应用,2006,22(5):18-30
[20] 余航,刘枫,靳泰戈.基于SOAP的远程监控[J].计算机工程与设计,2006,27(4):664-666
[21] 周强,闰大顺,许世范.基于Web技术的分布式监测系统设计与实现[J].仪器仪表 学报,2001,22(3):278-279
[22] 苏建明,张续红,胡庆夕.展望虚拟现实技术[J].计算机仿真,2004,21(1):18-21
[23] 金侠杰,林财兴.虚拟现实及其在网络中的实现[J].计算机仿真,2003,20(10):8-10
[24] 葛晓萍.Internet环境下虚拟现实技术在WEB页中的应用[J].南京广播电视大学学报,2005,39(2):37~40
[25] 孔英会,鲁强,高会生,贾俊敏.基于WebVR的变电站通信监控系统设计与实现[J].华北电力大学学报.2005,32(3):85~88
[26] 邱进冬,杨志雄,顾新建.基干Web的虚拟现实的开发与应用[J].计算机应用研究,2003,20(3):92~96
[27] 杨颂,费敏锐.虚拟现实技术在现场监控系统中实现探索[J].微计算机信息,2000,(3):21~23
[28] 郭风英,林锡渲.网上虚拟现实的开发[J].微计算机应用,2000,21(5):283~285
[29] 袁小泉,杨德华.Web虚拟现实技术在电子商务中的应用[J].电脑与开发应用,2003,16(11):44~46
[30] 李玉忠,杜慧军.虚拟现实技术综述与基于Internet的虚拟培训系统设计[J].计算机工程与应用.2002,15:127~129
[31] Lihui Wang, Ryan Sams, MarcelVemer, Fengfeng Xi. Integrating Java 3D modeland sensor data for remote monitoring and control[J]. Robotics and Computer Integrated Manufacturing, 2003, 19:13~19
[32] Lihui Wang, Peter Orban, Andrew Cunningham, Sherman Lang. Remote real-time CNC machining for web-based manufacturing[J]. Robotics and Computer-Integrated Manufacturing, 2004, (20): 563~571
[33] T. H. Xu, Y. J. Lin and C. C. Chan. A Web-Based Product Modelling Tool.—A PreliminaryDevelopment[J]. Advanced Manufacturing Technology, 2003(21): 669~677
[34] S. F. Qin, R. Harrison, A. A. West, D. K. Wright. Development of a novel 3D simulation modelling system for distributed manufacturing[J]. Computers In Industry, 2004, 54: 69~81
[35] M. Emoto, J. Narlo, O. Kaneko, A. Komori, M. Iima, S. Yamaguchi, S. Sudo 3D real-time monitoring system for LHD plasma heating experiment[J]. Fusion Engineering and Design, 2001, 56-57:1017-1021
[36] 廖小翔,胡旭冬.基于WEB的机器人遥操作系统虚拟现实的Java3D实现[J].机电工程.2003,20(5):145-148
[37] Toshiaki Kimura, Yuichi Kanda Development of a remote monitoring system for a manufacturing support system for small and medium-sized enterprises[J]. ComputersIn Industry, 2005, 56: 3-12
[38] 邹葱白,林宗寿.基于EAI的水泥企业管理信息系统的研究[J].中国水泥,2004,9:17-20
[39] 杨喜敏,陆际光,唐菀.分布式应用技术中的CORBA、Java RMI和DCOM[J].中南民族大学学报,2002,21(2):61-63
[40] 刘裕,吴坚.中间件技术与ICE[J].微机发展,2004,14(10):37-39
[41] Cay S. Horstmann, Gary Comell. Core Java 2 Volume Ⅱ-Advanced Features[M]. Prentice Hall PTR, 2005
[42] 孙长俊,周晓峰.基于Web Services的企业应用集成模型[J].计算机技术与发展,2006,16(5):208-210
[43] 许国艳.J2EE平台上基于Web Services的数据集成研究[J].计算机工程与设计,2006,27(10):1791-1796
[44] 张光远,何英炜,陈志祥.基于J2EE/Web Services的生产计划模型与实现技术研究[J].计算机集成制造系统,2006,12(3):357-363
[45] 王滨,黄永峰,许晓东.基于SOA的应用程序框架研究与实现[J].计算机工程与设计,2006,27(7):1198-1200
[46] 郝文育,杨雨图,王宁生.基于Web Services的ERP四层体系结构研究[J].机械科学与技术,2005,24(2):176-178
[47] 谭亮.基于Web Services的ERP系统的设计与实现[J].计算机与现代化.2005.11:69-71
[48] Roger L. Mclntosh. Open-Source Tools for Distributed Device Control Within a Service-Oriented Architecture[J]. JALA, 2004, 9: 404-410
[49] 吴军,邓超,邵新宇,游本善.基于Web Services的企业应用集成方法研究[J].计算机应用研究,2006,8:64-66
[50] 郑强,刘一娜.基于Web Services的异构数据集成应用研究[J].计算机与现代化,2006,6:9-11
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