Web Service在油水液位检测系统中的应用研究
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摘要
针对现有油水液位检测系统开发中存在数据和数据处理方法共享不足的缺陷,提出了采用Web Service技术设计开发油水液位检测系统的思路。介绍了Web Service技术和电磁波油水液位测量原理,讨论了系统总体结构框架,设计了Web Service接口,完成了基于Web Service接口的面向底层设计和面向顶层设计,通过引用Web Service接口,实现了油水液位检测系统功能。结果表明,采用Web Service技术的油水液位检测系统在数据共享和分布式计算方面实现了程序到程序的交互,方便用户调用和管理。
Aiming at the deficiency of sharing data and data processing methods in the development of existing oil-water level detection system,the idea was proposed that developed the electromagnetic wave oil-water level measuring system based on Web Service. The core content of Web Service technology and the principle of electromagnetic wave measurement were briefly introduced,the whole structure of the system was discussed,and the bottom-level programming and top-level programming were designed based on Web Service. By referring to the Web Service interface,the function of oil-water level detection system was realized. The results show that the oil-water level detection system using Web Service technology realizes program-to-program interaction in data sharing and distributed computing,which is convenient for users to invoke and manage.
Aiming at the deficiency of sharing data and data processing methods in the development of existing oil-water level detection system,the idea was proposed that developed the electromagnetic wave oil-water level measuring system based on Web Service. The core content of Web Service technology and the principle of electromagnetic wave measurement were briefly introduced,the whole structure of the system was discussed,and the bottom-level programming and top-level programming were designed based on Web Service. By referring to the Web Service interface,the function of oil-water level detection system was realized. The results show that the oil-water level detection system using Web Service technology realizes program-to-program interaction in data sharing and distributed computing,which is convenient for users to invoke and manage.
引文
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[11]蔡家铁,吴锡令.阵列电磁传感器的频率特性测量实验研究[J].测井技术,2013,37(2):24-27.
[2]任磊,陈祥光,刘春涛.原油储罐油水界面测量方法的研究及应用[J].仪器仪表学报,2008,29(10):2186-2191.
[3]董鹏敏,赵波,艾绳勇,等.原油储罐油水界面动态检测系统的研究[J].西安石油大学学报(自然科学版),2013,28(3):34-37.
[4]刘雷,何道洁,周小玲.微波检测原油含水率研究[J].中国仪器仪表,2009(4):60-62.
[5]刘尊民,林海波,仪垂杰.基于I2C的油罐界位检测系统设计[J].西安石油大学学报(自然科学版),2014,9(5):53-57.
[6]程南,程远,汤国强.基于单片机的油水界面检测[J].化工自动化及仪表,2013,40(2):174-175;195.
[7]柯愈龙,张生昌,邓鸿英,等.基于GPRS的原油计量站远程监控系统[J].轻工机械,2013,31(2):56-59.
[8]吴爱平,阳俊,张星.基于Lab VIEW的油水界面检测系统[J].仪表技术与传感器,2011(12):46-48.
[9]罗东俊.一种面向Web Services的安全中间件[J].哈尔滨工业大学学报,2009,41(9):218-221.
[10]陈颖慧,邱雪松,刘益畅,等.基于模型的Web Service性能测试方法[J].北京邮电大学学报,2009,32(4):44-47.
[11]蔡家铁,吴锡令.阵列电磁传感器的频率特性测量实验研究[J].测井技术,2013,37(2):24-27.