基于RFID的飞机维修工具管理系统的设计
摘要
如何把射频识别技术(Radio Frequency Identification, RFID)技术很好的应用于飞机维修工具管理上是民航安全方面的重大课题,本文介绍了采用射频识别技术实现对飞机维修工具实现高效、快捷的管理方法,以促进中小型航空器维修单位的工具管理水平的提升,有效的保证了航空器的安全运行。
本论文对飞机维修工具管理研究的背景、意义以及RFID技术进行了详细的论述,提出了基于RFID飞机维修工具管理系统的设计,其中结合现有的工具管理制度,加强对于常用、易丢失工具的管理,通过在飞机维修工具管理过程中的:借用工具管理、归还工具管理、工具存储管理、查询与统计、人员信息管理等,实现了对飞机维修工具的自动化、智能化管理。并对系统进行了业务分析,流程设计,数据库设计以及实现方法等内容。
系统的设计选用C#面向对象语言,在Visual Studio.NET 2005环境下开发,完成在C/S模式下的相应功能模块的设计,并采用SQL Server2005数据库对数据进行管理,设计了基于RFID的飞机维修工具管理系统。
How radio frequency identification technology (Radio Frequency Identification, RFID) technology used in aircraft maintenance tools for good management of civil aviation security is a major issue, this paper describes the use of radio frequency identification technology for aircraft maintenance tools for efficient and fast management to promote small and medium sized aircraft maintenance organizations, to enhance the level of management tools, effectively ensuring the safe operation of aircraft.
This paper studies the management of aircraft maintenance tools for the background, significance, and RFID technology a detailed discussion of proposed RFID-based tools for aircraft maintenance management system design, which combines existing tools management system, strengthening the common, easily lost tools management, aircraft maintenance tools to manage through the process of: borrowing tools management, return management tools, tools, storage management, query and statistics, personnel information management, to achieve the automation of aircraft maintenance tools, intelligent management. Business and systems analysis, process design, database design and implementation and so on.
System is designed to use object-oriented C# language, Visual Studio.NET 2005 development environment, complete the C/S mode, the corresponding function module design, and using SQL Server2005 database for data management, design of aircraft based on RFID maintenance tool management system.
本论文对飞机维修工具管理研究的背景、意义以及RFID技术进行了详细的论述,提出了基于RFID飞机维修工具管理系统的设计,其中结合现有的工具管理制度,加强对于常用、易丢失工具的管理,通过在飞机维修工具管理过程中的:借用工具管理、归还工具管理、工具存储管理、查询与统计、人员信息管理等,实现了对飞机维修工具的自动化、智能化管理。并对系统进行了业务分析,流程设计,数据库设计以及实现方法等内容。
系统的设计选用C#面向对象语言,在Visual Studio.NET 2005环境下开发,完成在C/S模式下的相应功能模块的设计,并采用SQL Server2005数据库对数据进行管理,设计了基于RFID的飞机维修工具管理系统。
How radio frequency identification technology (Radio Frequency Identification, RFID) technology used in aircraft maintenance tools for good management of civil aviation security is a major issue, this paper describes the use of radio frequency identification technology for aircraft maintenance tools for efficient and fast management to promote small and medium sized aircraft maintenance organizations, to enhance the level of management tools, effectively ensuring the safe operation of aircraft.
This paper studies the management of aircraft maintenance tools for the background, significance, and RFID technology a detailed discussion of proposed RFID-based tools for aircraft maintenance management system design, which combines existing tools management system, strengthening the common, easily lost tools management, aircraft maintenance tools to manage through the process of: borrowing tools management, return management tools, tools, storage management, query and statistics, personnel information management, to achieve the automation of aircraft maintenance tools, intelligent management. Business and systems analysis, process design, database design and implementation and so on.
System is designed to use object-oriented C# language, Visual Studio.NET 2005 development environment, complete the C/S mode, the corresponding function module design, and using SQL Server2005 database for data management, design of aircraft based on RFID maintenance tool management system.
引文
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[2]张益强,郑铭,张其善.远距离射频识别系统及其应用前景[J].中国数据通信.2004.1:95-98.
[3]Mawhinney D.Microwave tag identification systems.RCA Rev.1983(44):589-610.
[4]Pobanz, C.W."A microwave noncontact identification transpondent using subharmonic interrogation" [J].IEEE Transactions on Microwave Theory Techniques.1995.43.7.2: 1673-1679.
[5]]Small D."The potential of RFID is finally a reality"[J].Industrial Engineering.1992.(46): 46-47.
[6]Hartje, Ronald L."Tomorrow's Toll Road"[J].Civil Engineering.1991.2.(61):60-61.
[7]沈宇超,沈树群.射频识别技术及其发展现状[[J].电子技术应用.1999(1):4-5.
[8][德]Klaus Finkenzeller射频识别(RFID)技术-无线电感应的标签和非接触IC卡的原理与应用[M].第二版陈大才译.北京:电子工业出版社.2001.
[9]游战清,李苏剑等编著.无线射频识别技术(RFID)理论与应用[M].北京:电子工业出版社.2004.
[10]AIM Inc.WP-98/00282.Radio Frequency Identification RFID A basic primer [EB/OL]. http://www.aimglobal.org/technologies/rfid/resources/RFIDPrimer.pdf, AIM Inc.White Paper, Version 1.2.2003-11-23.
[11]蔡凡弟.无线IC卡的结构原理[J].电子世界.2001.5.
[12]游战清,李苏剑等.无线射频识别技术(RFID)理论与应用[M].北京:电子工业出版社,2004
[13]尚丹,刘奕昌,刘公望.折合偶极子天线与金属的距离对天线性能的影响[J]现代电子技术,2007,30(12):156-158.
[14]钟顺时.微带天线理论与应用[M].西安:西安电子科技大学出版社,1991
[15]徐斌.基于EBG结构微带天线的散射特性研究[D].南京:南京航空航天大学,2006.
[16]房建民.高增益及宽带微带天线研究[D].南京:南京理工大学,2007.
[17]约翰·克劳斯等.天线[M].第三版,北京:电子工业出版社,2004.
[18]斯塔兹曼WL,蒂尔GA.天线理论与设计[M].朱守正,安同一泽.第二版.北京:人民邮电出版社,2006.
[19]沈致远.微波技术[M].北京:国防工业出版社,1980.
[20]康行健.天线原理与设计[M].北京:北京理工大学出版社,1993.
[21]李秀萍,刘禹.基于RFID应用的印刷偶极子天线受环境影响测试[J].电子器件,2007.