基于通信技术的土木工程健康状态信息远程监测系统研究
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摘要
目前,我国在土木工程健康状态监测领域存在着测量方法单一,数据采集困难,数据处理低效等问题。因此,论文对土木工程健康状态监测技术进行了研究。
论文以国内某特长隧道的通风竖井为对象,在对土木工程健康状态监测需求进行分析和研究的基础上,采用了理论、试验与工程验证相结合的方法,设计并实现了一套基于先进通信技术的土木工程健康状态信息远程监测系统。
首先设计了以CPLD、嵌入式系统为核心电路的前端测频系统,实现了多个传感器自动接入测量的功能。其次,根据工程实际情况,选取无线通信与有线通信相结合,专网与公网相结合的数据传输方案。用无线数传模块完成竖井顶部测量点数据到底部的传输,采用485总线完成竖井底部测量点及顶部数据到主隧道接力点的数据传输,利用GSM公网实现了主隧道接力点到办公室的数据传输,从而达到了土木工程健康状态信息数据远程监测的目的。
最后用C语言设计了前端采集和专网通信程序,采用Visual C++6.0和数据库Access2003设计了后台数据监测管理系统。
通过实际工程的试用,表明所设计的系统运行稳定,数据采集正确,达到了预期要求,具有很高的工程实用价值。论文的研究成果已获得国家实用新型专利。
At present, uniformity of measuring methods, difficulty in data acquisition, inefficiency of data processing and some other problems exist in the health status monitoring field of domestic civil engineering, thus health status monitoring techniques of civil engineering projects are studied in this paper.
With some domestic ultra-long tunnel ventilation shaft as the study object, an advanced communication technology-based remote health status monitoring system of civil engineering projects is designed and implemented on the basis of the requirement analysis and research of civil engineering projects health status monitoring and the application of an approach with the combination of theories, tests and engineering verifications.
First, a front end frequency measuring system with a CPLD and an embedded system as the core circuit is designed to realize the automated connection and measurement of multiple sensors. Second, according to practical project condition, a data transmission scheme with the integration of wireless and wired communications as well as the combination of a private network and a public network is selected. Data transmission from measuring nodes on the top of the shaft to the bottom is completed by wireless data transmission modules, data transmission from measuring nodes at the bottom of the shaft to relay nodes in the main tunnel is completed through a RS485 bus, and data transmission from relay nodes in the main tunnel to the office is completed through the GSM network, thus the remote health status monitoring of civil engineering projects is achieved.
Finally, a program for the front end acquisition and the private network communication is designed in C language, and a background data monitoring management system is designed with Visual C++6.0 and Access 2003.
Test results in practical projects reveal the stability of the system, the correctness of data acquisition and the satisfaction of expected requirement, showing great application value of this system. A national utility model patent for this research has been approved.
论文以国内某特长隧道的通风竖井为对象,在对土木工程健康状态监测需求进行分析和研究的基础上,采用了理论、试验与工程验证相结合的方法,设计并实现了一套基于先进通信技术的土木工程健康状态信息远程监测系统。
首先设计了以CPLD、嵌入式系统为核心电路的前端测频系统,实现了多个传感器自动接入测量的功能。其次,根据工程实际情况,选取无线通信与有线通信相结合,专网与公网相结合的数据传输方案。用无线数传模块完成竖井顶部测量点数据到底部的传输,采用485总线完成竖井底部测量点及顶部数据到主隧道接力点的数据传输,利用GSM公网实现了主隧道接力点到办公室的数据传输,从而达到了土木工程健康状态信息数据远程监测的目的。
最后用C语言设计了前端采集和专网通信程序,采用Visual C++6.0和数据库Access2003设计了后台数据监测管理系统。
通过实际工程的试用,表明所设计的系统运行稳定,数据采集正确,达到了预期要求,具有很高的工程实用价值。论文的研究成果已获得国家实用新型专利。
At present, uniformity of measuring methods, difficulty in data acquisition, inefficiency of data processing and some other problems exist in the health status monitoring field of domestic civil engineering, thus health status monitoring techniques of civil engineering projects are studied in this paper.
With some domestic ultra-long tunnel ventilation shaft as the study object, an advanced communication technology-based remote health status monitoring system of civil engineering projects is designed and implemented on the basis of the requirement analysis and research of civil engineering projects health status monitoring and the application of an approach with the combination of theories, tests and engineering verifications.
First, a front end frequency measuring system with a CPLD and an embedded system as the core circuit is designed to realize the automated connection and measurement of multiple sensors. Second, according to practical project condition, a data transmission scheme with the integration of wireless and wired communications as well as the combination of a private network and a public network is selected. Data transmission from measuring nodes on the top of the shaft to the bottom is completed by wireless data transmission modules, data transmission from measuring nodes at the bottom of the shaft to relay nodes in the main tunnel is completed through a RS485 bus, and data transmission from relay nodes in the main tunnel to the office is completed through the GSM network, thus the remote health status monitoring of civil engineering projects is achieved.
Finally, a program for the front end acquisition and the private network communication is designed in C language, and a background data monitoring management system is designed with Visual C++6.0 and Access 2003.
Test results in practical projects reveal the stability of the system, the correctness of data acquisition and the satisfaction of expected requirement, showing great application value of this system. A national utility model patent for this research has been approved.
引文
[1]陈建勋,胡健,杨绍站.公路隧道施工围岩稳定性及支护效果监控量测技术的研究[R].西安:长安大学,2009
[2]关宝树.隧道工程施工要点集[M].北京:人民交通出版社,2003
[3]郑金龙.雀儿山隧道海拔高度系数测试研究[J].现代隧道技术,2007,44(2):10-14
[4]孙鸿敏,李宏男.土木工程结构健康监测研究进展[J].防灾减灾工程学报,2003,23(3):92-97
[5]李宏男,高东伟,伊挺华.土木工程结构健康监测系统的研究状况与进展[J].力学进展,38(2):151-164
[6]赵邵平.PowerDesigner系统分析与建模[M].北京:清华大学出版社,2004
[7]李伯成.单片机嵌入式系统(第2版)[M].北京:清华大学出版社,2008
[8]郭兰英.微机原理与接口技术[M].北京:清华大学出版社,2006
[9]胡汉才.单片机及其接口技术[M].北京:清华大学出版社,2000
[10]Barry B Brey. The Intel Microprocessors 8086/80188,80286,80386,80486, Pentium and Pro Processor Architecture, Programming, and Interfacing.陈谊译[M].北京:机械工业出版社,1998
[11]刘宝有.钢弦式传感器及其应用[M].北京:中国铁道出版社,1986
[12]马光胜.SoC设计与IP核重用技术[M].北京:国防工业出版社,2006
[13]潘松.SPOC技术实用教程[M].北京:清华大学出版社,2005
[14]Chris Rowen. Engineering the Complex SOC Fast, Flexible Design with Configurable Processors.吴武臣译.北京:机械工业出版社,2006
[15]Wayne Wolf. Principles of Embedded Computing System Design.孙玉芳译[M].北京:机械工业出版社,2002
[16]蒋雪松.VHDL设计实例与仿真[M].北京:机械工业出版社,2007
[17]潘松.EDA技术与VHDL(第二版)[M].北京:清华大学出版社,2007
[18]陶冶,袁永超,罗平.基于DS18B20的单片机温度测量系统[J].农机化研究,2007,(10):160-163
[19]张越,张炎,赵延军.基于DS18B20温度传感器的数字温度计[J].微电子学,2007,37(5):699-711,716
[20]薛燕红.基于89C51+DS18B20的智能温控器的研制[J].微计算机信息(测控自动化),2003,23(3-1):198-199
[21]丁向荣,谢俊,王彩申.单片机C语言编程与实践[M].北京:电子工业出版社,2009
[22]姚亚峰,陈建文,黄载禄.嵌入式系统中EEPROM接口及控制电路设计[J].半导体技术,2007,32(4):328-331
[23]朱华生,叶军.嵌入式系统ⅡC设备驱动程序设计与实现[J].微计算机信息(嵌入式与SOC),2006,22(10-2):170-172
[24]陈志辉.12C总线在MCS51系列单片机数据采集中的实现[J].微计算机信息,2005,21(1):67-68
[25]李和太,蒋晶鑫,陆虹.嵌入式串行EEPROM研究[J].微处理机,2007,(1):29-31
[26]刘振海.一种基于单片机和串行EEPROM的智能密码锁[J].单片机开发与应用,2007,23(12-2):133-134,95
[27]贺舒榕.单片机应用系统断电时的数据保护方法[J].云南大学学报(自然科学版),2007,29(S1):135-138
[28]樊昌信,徐炳祥.通信原理[M].北京:国防工业出版社,1980
[29]张卫钢.通信原理与通信技术[M].西安:西安电子科技大学出版社,2008
[30]曹志钢,钱亚生.现代通信原理[M].北京:清华大学出版社,1992
[31]苏小会,徐淑萍.基于GSM技术的远程监控系统[J].微计算机信息(嵌入式与SOC),2007,23(12-2):12-14
[32]余红珍,于海平.GSM短信息在温室远程监控系统的应用[J].微计算机信息,2008,24(7-3):92-94
[33]李家群,吴健琨,张维科.利用GSM网络进行大坝远程监控的应用实践[J].水利水文自动化,2008,(2):8-11
[34]秦实宏,卢亚玲,胡胜,等.基于GSM无线远程集中抄表电量管理系统[J].华中科技大学学报(自然科学版),2007,35(12):53-55
[35]刘涛,张春业.基于手机模块TC35的单片机短消息收发系统[J].电子技术,2003,(3):36-39
[36]王晓娟,黄忠全.短消息系统设计与实现[J].重庆大学学报,2004,27(5):96-98
[37]马子彦.基于SMS的远程抄表系统设计[J].微计算机信息,2006,22(721):165-166,260
[38]张士凯,吴乐南,戴宏.基于GSM-SMS的远程电压监测系统[J].微计算机信息(测控自动化),2004,20(9):40-42
[39]栾昌海,王盟,燕爱华.GSM网络在嵌入式测控系统中的应用[J].嵌入式系统应用,2007,23(2-3):43-44,47
[40]张申勇.基于短消息的移动通信网络自动监控系统的研究[D].武汉:华中科技大学,2004
[41]黎炜.基于GPRS与SMS的远程数据传输[J].重庆工学院学报(自然科学版),2007,21(9):124-127
[42]张晓培,李祥.从Unicode到GBK的内码转换[J].微计算机应用,2006,27(6):757-759
[43]张宏林.精通Visual C++串口通信技术与工程实践(第三版)[M].北京:人民邮电出版社,2008
[44]李现勇.Visual C++串口通信技术与工程实践[M].北京:人民邮电出版社,2002
[45]杨爵,朗宗棪.使用纠错编码[M].北京:中国铁道出版社,1988
[46]孙鑫,余安萍.VC++深入详解[M].北京:电子工业出版社,2006
[2]关宝树.隧道工程施工要点集[M].北京:人民交通出版社,2003
[3]郑金龙.雀儿山隧道海拔高度系数测试研究[J].现代隧道技术,2007,44(2):10-14
[4]孙鸿敏,李宏男.土木工程结构健康监测研究进展[J].防灾减灾工程学报,2003,23(3):92-97
[5]李宏男,高东伟,伊挺华.土木工程结构健康监测系统的研究状况与进展[J].力学进展,38(2):151-164
[6]赵邵平.PowerDesigner系统分析与建模[M].北京:清华大学出版社,2004
[7]李伯成.单片机嵌入式系统(第2版)[M].北京:清华大学出版社,2008
[8]郭兰英.微机原理与接口技术[M].北京:清华大学出版社,2006
[9]胡汉才.单片机及其接口技术[M].北京:清华大学出版社,2000
[10]Barry B Brey. The Intel Microprocessors 8086/80188,80286,80386,80486, Pentium and Pro Processor Architecture, Programming, and Interfacing.陈谊译[M].北京:机械工业出版社,1998
[11]刘宝有.钢弦式传感器及其应用[M].北京:中国铁道出版社,1986
[12]马光胜.SoC设计与IP核重用技术[M].北京:国防工业出版社,2006
[13]潘松.SPOC技术实用教程[M].北京:清华大学出版社,2005
[14]Chris Rowen. Engineering the Complex SOC Fast, Flexible Design with Configurable Processors.吴武臣译.北京:机械工业出版社,2006
[15]Wayne Wolf. Principles of Embedded Computing System Design.孙玉芳译[M].北京:机械工业出版社,2002
[16]蒋雪松.VHDL设计实例与仿真[M].北京:机械工业出版社,2007
[17]潘松.EDA技术与VHDL(第二版)[M].北京:清华大学出版社,2007
[18]陶冶,袁永超,罗平.基于DS18B20的单片机温度测量系统[J].农机化研究,2007,(10):160-163
[19]张越,张炎,赵延军.基于DS18B20温度传感器的数字温度计[J].微电子学,2007,37(5):699-711,716
[20]薛燕红.基于89C51+DS18B20的智能温控器的研制[J].微计算机信息(测控自动化),2003,23(3-1):198-199
[21]丁向荣,谢俊,王彩申.单片机C语言编程与实践[M].北京:电子工业出版社,2009
[22]姚亚峰,陈建文,黄载禄.嵌入式系统中EEPROM接口及控制电路设计[J].半导体技术,2007,32(4):328-331
[23]朱华生,叶军.嵌入式系统ⅡC设备驱动程序设计与实现[J].微计算机信息(嵌入式与SOC),2006,22(10-2):170-172
[24]陈志辉.12C总线在MCS51系列单片机数据采集中的实现[J].微计算机信息,2005,21(1):67-68
[25]李和太,蒋晶鑫,陆虹.嵌入式串行EEPROM研究[J].微处理机,2007,(1):29-31
[26]刘振海.一种基于单片机和串行EEPROM的智能密码锁[J].单片机开发与应用,2007,23(12-2):133-134,95
[27]贺舒榕.单片机应用系统断电时的数据保护方法[J].云南大学学报(自然科学版),2007,29(S1):135-138
[28]樊昌信,徐炳祥.通信原理[M].北京:国防工业出版社,1980
[29]张卫钢.通信原理与通信技术[M].西安:西安电子科技大学出版社,2008
[30]曹志钢,钱亚生.现代通信原理[M].北京:清华大学出版社,1992
[31]苏小会,徐淑萍.基于GSM技术的远程监控系统[J].微计算机信息(嵌入式与SOC),2007,23(12-2):12-14
[32]余红珍,于海平.GSM短信息在温室远程监控系统的应用[J].微计算机信息,2008,24(7-3):92-94
[33]李家群,吴健琨,张维科.利用GSM网络进行大坝远程监控的应用实践[J].水利水文自动化,2008,(2):8-11
[34]秦实宏,卢亚玲,胡胜,等.基于GSM无线远程集中抄表电量管理系统[J].华中科技大学学报(自然科学版),2007,35(12):53-55
[35]刘涛,张春业.基于手机模块TC35的单片机短消息收发系统[J].电子技术,2003,(3):36-39
[36]王晓娟,黄忠全.短消息系统设计与实现[J].重庆大学学报,2004,27(5):96-98
[37]马子彦.基于SMS的远程抄表系统设计[J].微计算机信息,2006,22(721):165-166,260
[38]张士凯,吴乐南,戴宏.基于GSM-SMS的远程电压监测系统[J].微计算机信息(测控自动化),2004,20(9):40-42
[39]栾昌海,王盟,燕爱华.GSM网络在嵌入式测控系统中的应用[J].嵌入式系统应用,2007,23(2-3):43-44,47
[40]张申勇.基于短消息的移动通信网络自动监控系统的研究[D].武汉:华中科技大学,2004
[41]黎炜.基于GPRS与SMS的远程数据传输[J].重庆工学院学报(自然科学版),2007,21(9):124-127
[42]张晓培,李祥.从Unicode到GBK的内码转换[J].微计算机应用,2006,27(6):757-759
[43]张宏林.精通Visual C++串口通信技术与工程实践(第三版)[M].北京:人民邮电出版社,2008
[44]李现勇.Visual C++串口通信技术与工程实践[M].北京:人民邮电出版社,2002
[45]杨爵,朗宗棪.使用纠错编码[M].北京:中国铁道出版社,1988
[46]孙鑫,余安萍.VC++深入详解[M].北京:电子工业出版社,2006