人工神经网络在斜拉桥检测中的应用研究
|
摘要
斜拉桥检测分析研究对于这类大型桥梁的养管、维修、监测及结构设计有着十分重要的作用。用振动法对桥梁的无损检测是桥梁检测研究的热点,而损伤识别问题是其中一个有待解决的问题,难点是对这类损伤的逆问题的解答往往不是唯一的。采用模糊分类分析方法更能解决损伤预测等方面的问题,人工神经网络是一门新兴的边缘和交叉学科,这种由大量神经元互联组成的非线性大规模动力系统所具有的再学习能力、非线性、容错性及大规模并行处理等特点在解决上述问题中有着很大的优势。本文在详细分析斜拉桥结构特点、斜拉桥检测方法、结构损伤识别的基本理论及人工神经网络基本理论的基础上提出了斜拉桥检测的人工神经网络模型,用MATALAB语言,并通过工程实例中的检测数据对网络训练,取得了较满意的网络输出结果,显示出人工神经网络在工程实际应用中的影响及广阔的前景。
It is very important for maintaining, monitoring and designing the great bridge to analyze and check the cable-stayed bridge. The focus of the research of checking bridge is an application of vibration method in checking bridge scathelessly, but the problem of damage identification is one of awaiting solving problems, and the answer of the adverse question for this kind of damage is often not only, which is just the difficulty of the question. Adopting the blurry sort analysis method solves the damage forecasting problem etc. more, and artificial nerve network is a urgeoning marginal and cross subject, so the nonlinear spacious dynamic system conposed by a great deal nerve elements, which possesses re-learning ability , nonlinear , allowing-wrong ability and collateral dealing ability, has prodigious advantage for solving above-mentioned problems. The artificial nerve network model for checking cable-stayed bridge is proposed on base of analyzing the structure characteristic , checking method, structure damage identification basic theory of cable-stayed bridge and the basic theory of artificial nerve network in detail, and the project example used by MATLAB language is given, and a satisfying network output outcome is obtained to show the influence and wide prospect of the application of the artificial nerve network in project.
It is very important for maintaining, monitoring and designing the great bridge to analyze and check the cable-stayed bridge. The focus of the research of checking bridge is an application of vibration method in checking bridge scathelessly, but the problem of damage identification is one of awaiting solving problems, and the answer of the adverse question for this kind of damage is often not only, which is just the difficulty of the question. Adopting the blurry sort analysis method solves the damage forecasting problem etc. more, and artificial nerve network is a urgeoning marginal and cross subject, so the nonlinear spacious dynamic system conposed by a great deal nerve elements, which possesses re-learning ability , nonlinear , allowing-wrong ability and collateral dealing ability, has prodigious advantage for solving above-mentioned problems. The artificial nerve network model for checking cable-stayed bridge is proposed on base of analyzing the structure characteristic , checking method, structure damage identification basic theory of cable-stayed bridge and the basic theory of artificial nerve network in detail, and the project example used by MATLAB language is given, and a satisfying network output outcome is obtained to show the influence and wide prospect of the application of the artificial nerve network in project.
引文
[1] 项海帆.进入21世纪的中国大桥工程及抗风研究[A].北京科学技术出版社,1999.
[2] 交通部公路管理局.公路养护管理文件汇编[S].北京:人民交通出版社,1995.
[3] 交通部公路管理局.公路养护与管理手册[M].北京:人民交通出版社,1996.
[4] 刘自明,王邦楣.既有桥梁检测评估的若干要点.桥梁建设.2002.3:1—6
[5] 袁万城,崔非,张启伟.桥梁健康检测与状态评估的研究现状与发展[J].同济大学学报(自然科学版),1999,27(4):184—188.
[6] 章关永编译.对结构材料和桥梁进行状态检测的现有技术[J].国外桥梁,2000,(2):11—14.
[7] 徐秉铮,张百灵,韦岗编著.神经网络理论与应用[M].华南理工大学出版社,1994,12.
[8] 焦李成.神经网络计算[M].西安电子科技大学出版社,1993.
[9] Simpson Partrick K. Artificial Neural Systems Foundation, Paradigms, Applications and Implementations. Inc. APPENDIX. Pergamon Press, 1990.
[10] Wu Y S, Sha Z, Zhong Y X. Neural Networks Research in China. 中国神经网络学术大会论文集(上册),1991.
[11] 万国朝摘译.预应力混凝土斜拉桥.公路.1988(7)
[12] 林元培.斜拉桥[M].人民交通出版社,1995.
[13] 中华人民共和国行业标准.公路斜拉桥设计规范.JTJ 027-96.
[14] 周先念等.预应力混凝土斜拉桥[M].人民交通出版社,1996.
[15] 王勇,黄炎生编著.结构分析计算机方法结构分析计算机方法[M].华南理工大学出版社.
[16] 徐日昶,王博义,赵家奎.桥梁检验[M].人民交通出版社,1986.
[17] 刘自明,王邦楣.既有桥梁检测评估的若干要点.桥梁建设.2002.3:71-75.
[18] 郭敦仁.数学物理方法[M]).人民教育出版社,1980.
[19] 李国豪.桥梁结构稳定与振动[M].中国铁道出版社,1992.
[20] Hiroshi Zui et al, Practical Formulas for Estimation of Cable Tension by Vibration Method, Journal of Structural Engineering, vol. 122(6). 1996. June:651-656.
[21] Siegfied f.s. et al. Full Scale Dynamic Testing of the Annacis Bridge. Labse Proceeding 1.1988.
[22] 董聪,丁辉,高嵩.结构损伤识别和定位的基本原理与方法[J],中国铁道科学.1999,20(3)
[23] 傅方杰 主编.振动模态分析及参数识别[M].机械工业出版社.
[24] 铁木辛柯S.工程中的振动问题[M].胡人礼译.人民铁道出版社,1978.
[25] 余天庆,钱济成.损伤理论及其研究[M].国防工业出版社,1998.
[26] 洪钟瑜,张景绘,程维论.应用时间序列的基本性质识别振动系统的特性参数(下)—应用研究,振动与冲击.No.3,1986.
[27] 李兆霞 编著.损伤力学及其应用[M].科学出版社,1991.
[28] 张启伟.桥梁结构模型修正与损伤识别[D].同济大学桥梁工程系,1999.
[29] Doebling S W, Farrar C R, Prime M B. A Summary Review of Vibration-Based Damage Identification Methods[J]. The Shock and Vibration Digest, 1998,30: 91-105.
[30] Cornwell P J, Kam M K, Carlson B, et al. Comparative Study of Vibration-Based Damage Id Algorithms[A]. In:Proc. of 16th International Model Analysis Conference[C].Santa Barbara and USA:1998.
[31] 崔飞,袁万成,史家钧.结构损伤识别的样条函数方法.同济大学学报(自然科学版)2002,8:907-910.
[32] Farrar C R, Jaureguri D A. Comparative Study of Damage Identificiation Algorithms Applied to A Bridge: I. Experiment[J].Smart Material and Id Algorithms[A]. In:Proc. of 16th International Model Anlysis Conference[C].Santa Barbara and USA:1998.
[33] 李孝安.神经网络与神经计算机导论[M].西北工业大学出版社,1994.
[34] 袁曾任 编著.人工神经元网络及其应用[M].清华大学出版社,广西科学技术出版社,1999.
[35] Widrow B, et al. Neural Networks Application in industry, Business and
Science, Communcation of the ACM, 1994,37:93-105.
[36] Zurada Jacek M. Introduction to Artificial Neural Systems, New York: West Publishing Company. 1992.
[37] 程相君.神经网络原理及其应用[M].国防工业出版社,1995.
[38] 杨行峻,郑君里.人工神经网络[M].高等教育出版社,1992.
[39] 曹焕光.人工神经元网络原理[M].气象出版社,1992.
[40] 焦李成.神经网络理论[M].西安电子科技大学出版社,1990.
[41] 陈明.神经网络模型[M].大连理工大学出版社,1995.
[42] Yao X. Evolving Artificial Neural Networks. Proc IEEE, 1999,87(9).
[43] 阎平凡,张长水.人工神经网络与模拟进化计算[M].清华大学出版社,2000.
[44] 靳藩,范俊波,谭永东.神经网络与神经计算机原理●应用[M].西南交通大学出版社,1991.
[45] 张立明.人工神经网络的模型及其应用[M].复旦大学出版社.1991
[46] 张义民.人工神经网络的模型及其应用[M].复旦大学出版社,1993.
[47] 施顺宝.神经网络及应用阳[M].西安交通大学出版社,1993.
[48] 刘曙光等.前馈神经网络中的反向传播算法及其改进.进展与展望.计算机科学.1996,No.1.
[49] 丛爽,赵何.反向传播网络的不足与改进.自动化博览,1999,92(1):25-26.
[50] Chen C L, Nutter. Improving The Training Speed of Three-layer Feedforward Neural Nets by Optimal Estimation of The Initial Weights. Proc. Int. Joint Conf. Neural Networks. Sinpapore. Nov. 1991.
[51] Leonard J, Kramer M A.Improvement of the Backpropagation Algorithm for Training Neural Networks. Computers Chem. Engng. 1990,14(3).
[52] Fletcher R, et al. Function Minimization by Conjugate Gradients. Computer Journal, 1964, 7: 533-536.
[53] Patrick P, et al. Minimsation for Training Feedforward Neural Networks. Neural Networks, 1994, 7: 1-11.
[54] Scorselli F, et al. Univeral Approximation Using FNN: A Survey of Some Existing Methods and Some New Results.Neural Networks, 1998,11:15-37.
[55] 梁艳春,计算智能与力学反问题中的若干问题.力学进展.2000,30(3):
321-331.
[56]刘效尧.桥梁损伤识别的神经网络设计.华东公路,2000,2.
[57]R.Hechi-Nielson.Theory of The Back Propagation Neural Nerwork.Proc.of IJCNN,Vol.1.
[58]王国体,王春,黄曦,王超,BP神经网络在桩基工程中的应用.合肥工业大学学报,2001,4.
[59]孙宗光,高赞明,倪一清,丁皓江.斜拉桥桥面结构损伤位置识别的指标比较.工程力学,2003.1:027-031.
[60]丛爽.面向MATLAB工具箱的神经网络理论与应用[M].中国科技大学出版社.1998.
[61]张立明.人工神经网络的模型及其应用[M].复旦大学出版社.1991.
[62]靳蕃,范俊波,谭永东.神经网络与神经计算机—理论·应用[M].西南交通大学出版社,1991.
[63]楼顺天,施阳.基于MATLAB的系统分析与设计—神经网络[M].西安电子科技大学出版社,1999.
[64]闻新,周露,王丹力等.MATLAB神经网络应用设计[M].科学出版社,2000.
[65]胡守仁等.神经网络应用技术[M].国防科技大学出版社,1993.
[66]沈鹏程.结构力学中的有限元法[M].水利水电出版社,1989.
[67]何雄君.桥梁结构实用电算[M].科学出版社,1996.
[68]蔡敏,李建光,欧阳东.人工神经网络在斜拉桥索力检测中的应用.中国公路学会桥梁和结构工程学会2002年桥梁学术讨论会论文集.人民交通出版社.
[2] 交通部公路管理局.公路养护管理文件汇编[S].北京:人民交通出版社,1995.
[3] 交通部公路管理局.公路养护与管理手册[M].北京:人民交通出版社,1996.
[4] 刘自明,王邦楣.既有桥梁检测评估的若干要点.桥梁建设.2002.3:1—6
[5] 袁万城,崔非,张启伟.桥梁健康检测与状态评估的研究现状与发展[J].同济大学学报(自然科学版),1999,27(4):184—188.
[6] 章关永编译.对结构材料和桥梁进行状态检测的现有技术[J].国外桥梁,2000,(2):11—14.
[7] 徐秉铮,张百灵,韦岗编著.神经网络理论与应用[M].华南理工大学出版社,1994,12.
[8] 焦李成.神经网络计算[M].西安电子科技大学出版社,1993.
[9] Simpson Partrick K. Artificial Neural Systems Foundation, Paradigms, Applications and Implementations. Inc. APPENDIX. Pergamon Press, 1990.
[10] Wu Y S, Sha Z, Zhong Y X. Neural Networks Research in China. 中国神经网络学术大会论文集(上册),1991.
[11] 万国朝摘译.预应力混凝土斜拉桥.公路.1988(7)
[12] 林元培.斜拉桥[M].人民交通出版社,1995.
[13] 中华人民共和国行业标准.公路斜拉桥设计规范.JTJ 027-96.
[14] 周先念等.预应力混凝土斜拉桥[M].人民交通出版社,1996.
[15] 王勇,黄炎生编著.结构分析计算机方法结构分析计算机方法[M].华南理工大学出版社.
[16] 徐日昶,王博义,赵家奎.桥梁检验[M].人民交通出版社,1986.
[17] 刘自明,王邦楣.既有桥梁检测评估的若干要点.桥梁建设.2002.3:71-75.
[18] 郭敦仁.数学物理方法[M]).人民教育出版社,1980.
[19] 李国豪.桥梁结构稳定与振动[M].中国铁道出版社,1992.
[20] Hiroshi Zui et al, Practical Formulas for Estimation of Cable Tension by Vibration Method, Journal of Structural Engineering, vol. 122(6). 1996. June:651-656.
[21] Siegfied f.s. et al. Full Scale Dynamic Testing of the Annacis Bridge. Labse Proceeding 1.1988.
[22] 董聪,丁辉,高嵩.结构损伤识别和定位的基本原理与方法[J],中国铁道科学.1999,20(3)
[23] 傅方杰 主编.振动模态分析及参数识别[M].机械工业出版社.
[24] 铁木辛柯S.工程中的振动问题[M].胡人礼译.人民铁道出版社,1978.
[25] 余天庆,钱济成.损伤理论及其研究[M].国防工业出版社,1998.
[26] 洪钟瑜,张景绘,程维论.应用时间序列的基本性质识别振动系统的特性参数(下)—应用研究,振动与冲击.No.3,1986.
[27] 李兆霞 编著.损伤力学及其应用[M].科学出版社,1991.
[28] 张启伟.桥梁结构模型修正与损伤识别[D].同济大学桥梁工程系,1999.
[29] Doebling S W, Farrar C R, Prime M B. A Summary Review of Vibration-Based Damage Identification Methods[J]. The Shock and Vibration Digest, 1998,30: 91-105.
[30] Cornwell P J, Kam M K, Carlson B, et al. Comparative Study of Vibration-Based Damage Id Algorithms[A]. In:Proc. of 16th International Model Analysis Conference[C].Santa Barbara and USA:1998.
[31] 崔飞,袁万成,史家钧.结构损伤识别的样条函数方法.同济大学学报(自然科学版)2002,8:907-910.
[32] Farrar C R, Jaureguri D A. Comparative Study of Damage Identificiation Algorithms Applied to A Bridge: I. Experiment[J].Smart Material and Id Algorithms[A]. In:Proc. of 16th International Model Anlysis Conference[C].Santa Barbara and USA:1998.
[33] 李孝安.神经网络与神经计算机导论[M].西北工业大学出版社,1994.
[34] 袁曾任 编著.人工神经元网络及其应用[M].清华大学出版社,广西科学技术出版社,1999.
[35] Widrow B, et al. Neural Networks Application in industry, Business and
Science, Communcation of the ACM, 1994,37:93-105.
[36] Zurada Jacek M. Introduction to Artificial Neural Systems, New York: West Publishing Company. 1992.
[37] 程相君.神经网络原理及其应用[M].国防工业出版社,1995.
[38] 杨行峻,郑君里.人工神经网络[M].高等教育出版社,1992.
[39] 曹焕光.人工神经元网络原理[M].气象出版社,1992.
[40] 焦李成.神经网络理论[M].西安电子科技大学出版社,1990.
[41] 陈明.神经网络模型[M].大连理工大学出版社,1995.
[42] Yao X. Evolving Artificial Neural Networks. Proc IEEE, 1999,87(9).
[43] 阎平凡,张长水.人工神经网络与模拟进化计算[M].清华大学出版社,2000.
[44] 靳藩,范俊波,谭永东.神经网络与神经计算机原理●应用[M].西南交通大学出版社,1991.
[45] 张立明.人工神经网络的模型及其应用[M].复旦大学出版社.1991
[46] 张义民.人工神经网络的模型及其应用[M].复旦大学出版社,1993.
[47] 施顺宝.神经网络及应用阳[M].西安交通大学出版社,1993.
[48] 刘曙光等.前馈神经网络中的反向传播算法及其改进.进展与展望.计算机科学.1996,No.1.
[49] 丛爽,赵何.反向传播网络的不足与改进.自动化博览,1999,92(1):25-26.
[50] Chen C L, Nutter. Improving The Training Speed of Three-layer Feedforward Neural Nets by Optimal Estimation of The Initial Weights. Proc. Int. Joint Conf. Neural Networks. Sinpapore. Nov. 1991.
[51] Leonard J, Kramer M A.Improvement of the Backpropagation Algorithm for Training Neural Networks. Computers Chem. Engng. 1990,14(3).
[52] Fletcher R, et al. Function Minimization by Conjugate Gradients. Computer Journal, 1964, 7: 533-536.
[53] Patrick P, et al. Minimsation for Training Feedforward Neural Networks. Neural Networks, 1994, 7: 1-11.
[54] Scorselli F, et al. Univeral Approximation Using FNN: A Survey of Some Existing Methods and Some New Results.Neural Networks, 1998,11:15-37.
[55] 梁艳春,计算智能与力学反问题中的若干问题.力学进展.2000,30(3):
321-331.
[56]刘效尧.桥梁损伤识别的神经网络设计.华东公路,2000,2.
[57]R.Hechi-Nielson.Theory of The Back Propagation Neural Nerwork.Proc.of IJCNN,Vol.1.
[58]王国体,王春,黄曦,王超,BP神经网络在桩基工程中的应用.合肥工业大学学报,2001,4.
[59]孙宗光,高赞明,倪一清,丁皓江.斜拉桥桥面结构损伤位置识别的指标比较.工程力学,2003.1:027-031.
[60]丛爽.面向MATLAB工具箱的神经网络理论与应用[M].中国科技大学出版社.1998.
[61]张立明.人工神经网络的模型及其应用[M].复旦大学出版社.1991.
[62]靳蕃,范俊波,谭永东.神经网络与神经计算机—理论·应用[M].西南交通大学出版社,1991.
[63]楼顺天,施阳.基于MATLAB的系统分析与设计—神经网络[M].西安电子科技大学出版社,1999.
[64]闻新,周露,王丹力等.MATLAB神经网络应用设计[M].科学出版社,2000.
[65]胡守仁等.神经网络应用技术[M].国防科技大学出版社,1993.
[66]沈鹏程.结构力学中的有限元法[M].水利水电出版社,1989.
[67]何雄君.桥梁结构实用电算[M].科学出版社,1996.
[68]蔡敏,李建光,欧阳东.人工神经网络在斜拉桥索力检测中的应用.中国公路学会桥梁和结构工程学会2002年桥梁学术讨论会论文集.人民交通出版社.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |