作者简介:王柏生(1965-),男,浙江浦江人,浙江大学研究员,博士,从事结构振动、结构损伤检测研究. E-mail:wangbs@zju.edu.cn
作者单位:王柏生(浙江大学,建筑工程学院,浙江,杭州,310027)
何宗成(浙江大学,建筑工程学院,浙江,杭州,310027)
赵琛(浙江大学,建筑工程学院,浙江,杭州,310027)
参考文献:
[1]吴中如.老坝病变和机理探讨[J].中国水利,2000,(9):55-57.
[2]赵志仁,赵永,贾文利,等.关于堤坝安全检测技术的研讨[J].大坝与安全,2004,(1):9-12.
[3]魏德荣,赵花城.电力行业标准DL/T 5178-2003《混凝土坝安全监测技术规范》修订介绍[J].大坝与安全,2003,(6):3-6.
[4]方卫华.纵论大坝安全监测[J].水利水文自动化,2001,(3):9-12.
[5]吴忠如.水工建筑物安全监控理论及其应用[M].南京:河海大学出版社,1990.
[6]王仁钟.我国水利大坝的安全监测[J].水利水运科学研究,1995,(3):320-325.
[7]梁国钱,汪友平,郑敏生,等.堤坝工程隐患检测及其除险加固技术[J].浙江水利科技,2001,(增刊):3-6.
[8]吴子平,杨伟华.浅析国内外大坝安全监控的发展及资料分析数学模型[J].水利水文自动化,1999,(1):9-12.
[9]张正禄,张松林,黄全义,等.大坝安全监测、分析与预报的发展综述[J].大坝与安全,2002,(5):13-16.
[10]符伟杰,储华平,周柏兵.光纤传感在大坝安全监测中的应用及前景[J].大坝与安全,2003,(6):48-51.
[11]赵越,吴中如,张爱玲.BP模型在大坝安全监测预报中的应用[J].大坝观测与土工测试,1999,(6):1-4.
[12]陈维江,马震岳,董毓新.大坝安全监测遗传回归模型研究及应用[J].水电能源科学,2002,20(2):39-42.
[13]赖道平,吴中如,周红.分形学在大坝安全监测资料分析中的应用[J].水利学报,2004,(1):100-104.
[14]牛光运.大坝安全监测工作的回顾[J].人民珠江,2000,(5):31-33.
[15]林国良.大坝安全监测工作中存在的问题及其对策[J].西北水电,2003,(2):56-59.
[16]张震夏.堤坝隐患检测的方法与仪器[J].大坝与安全,2004,(1):1-8.
[17]冷元宝,黄建通,张震夏,等.堤坝隐患探测技术研究进展[J].地球物理学进展,2003,18(3):370-379.
[18]张震夏,张进平,李平,等.混凝土大坝声波层析检测系统[J].大坝与安全,2003,(2):39-43.
[19]余志雄,薛桂玉,周洪波,等.大坝CT技术研究概况与进展[J].岩石力学与工程学报,2004,23(8):1 394-1 397.
[20]王柏生.结构损伤检测与识别技术[M].杭州:浙江大学出版社,2000.
[21]West W M. Illustration of the use of modal assurance criterion to detect structural changes in an orbiter test specimen[A].Proceeding of the 4th International Modal Analysis Conference[C]. Bethel: Society for Experimental Mechanics, Inc, 1986.1-6.
[22]Pandy A K, Biswas M. Damage detection in structures using changes in flexibility[J]. Journal of Sound and Vibration,1994,169: 3- 17.
[23]Alampalli S, Fu G, Aziz I A. Modal analysis as a bridge inspection tool[A]. Proceedings of 10th IMAC[C]. Bethel: Society for Experimental Mechanics, Inc, 1992.1 359-1 366.
[24]Hunt D L. Application of an Enhanced Coordinate Modal Assurance Criteria[A]. 10th International Modal Analysis Conference[C]. Bethel: Society for Experimental Mechanics, Inc,1999.1 902-1 908.
[25]Kim J H, Jeon H S, Lee C W. Application of the modal assur ance criteria for detecting structural faults[A]. Proceedings of the 10th International Modal Analysis Conference[C]. Bethel:Society for Experimental Mechanics, Inc, 1992. 536-540.
[26]Kondo I, Hamamoto T. Local damage detection of flexible offshore platforms using ambient vibration measurement [A].Proceedings of the 4th International Offshore and Polar Engineering Conference[C]. Cupertino: Int Soc Offshore Polar Engineers, 1994. 400-407.
[27]Kim JT, Stubbs N. Damage detection in offshore jacket structures from limited modal information[J]. International Journal of Offshore and Polar Engineering, 1995,5: 58- 66.
[28]Wang B S, Liang X B, Ni Y Q. , et al. Comparative study of damage indices for long-span bridges[A]. Proceedings of 19th IMAC[C]. Bethel: Society for Experimental Mechanics, Inc,2001.1 374-1 380.
[29]Kim H M, Bartkowicz T J. Damage detection and health monitoring of large space structures[J]. Sound and Vibration,1993,27(6) :12-17.
[30]Kim, H M, Bartkowicz T J. An experimental study for damage detection using a hexagonal truss structure[A]. Proceed ings of the 36th AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics, and Materials Conference[C]. Reston:Amer Inst Aeronaut Astronaut, 1995.3 347-3 356.
[31]Chen H S, Matzen V C. Detection of damage in a space truss using modal data[A]. Smart Structures and Materials: Smart Sensing, Processing, and Instrumentation [C]. Bellingham:Spie-int Society Optical Engineering, 1994. 232-243.
[32]Friswell, M I, Penny, et al. The location of damage from vibration data using genetic algorithms[A]. Proceedings of the 13th International Modal Analysis Conference[C]. Bethel: Society for Experimental Mechanics, Inc, 1995.1 640-1 646.
[33]Mares C, Surace C. An application of genetic algorithms to identify damage in elastic structures[J]. Journal of Sound and Vibration, 1996,195:195- 215.
[34]Ferregut C, Oseguede R A, Stephenson T. Probabilistic detectability of structural damage using frequency sensitivity methods[A]. Smart Struct and Mater: Smart Syst for Bridg es, Struct and Highways[C]. Bellingham: Spie-int Society Optical Engineering, 1995.95- 105.
[35]Kashangaki, TAL. Mode selection for damage detection using the modal sensitivity parameter[A]. Proceedings of the 36th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference[C]. Reston: Amer Inst Aeronaut Astronaut, 1995.1 535-1 542.
[36]Topole K G, Stubbs N. Nondestructive damage eveluation in complex structure from minimum of modal parameters [J].Modal Analysis, 1995,10:95-103.
[37]Lam H F, Ko J M, Wong C W. Localization of damaged structural connections based on experimental modal and sensitivity analysis[J]. Journal of Sound and Vibration, 1998,210:91-115.
[38]Ricles J M, Kosmatka J B. Damage detection in elastic structures using vibratory residual forces and weighted sensitivity[J]. AIAA Journal, 1992,30:2 310-2 316.
[39]Stubbs N Garcia G. Application of pattern recognition to damage localization [J]. Microcomputers in Civil Engineering,1996,11:395-409.
[40]Garcia G, Stubbs N. Relative performance evaluation of pattern recognition models for nondestructive damage detection(NDD)[A]. Proceedings of the 15th International Modal Analysis Conference[C]. Bethel: Society for Experimental Mechanics, Inc, 1997.1 822-1 830.
[41]Wu X, Ghaboussi J, Garrett J H. Use of neural networks in detection of structural damage[J]. Computers and Structures,1992,42:649-659.
[42]Elkordy M F, Chang K C, Lee G C. Neural networks trained by analytically simulated damage states[J]. Journal of Computing in Civil Engineering, ASCE, 1993,7:130- 145.
[43]Barai S V, Pandey P C. Vibration signature analysis using artifical neural networks[J]. Journal Computing in Civil Engi neering, ASCE, 1995,9:259-265.
[44]Rhim J, Lee S W. A neural network approach for damage detection and identification of structures [J]. Comput Mech,1995,16:437-443.
[45]Worden K. Structural fault detection using a novelty measure[J]. J Sound and Vib, 1997,201:85-101.
[46]Zhao J, Ivan J N, DeWolf J T. Structural damage detection using artificial neural networks[J]. J Infrastruct Syst, ASCE,1998,4:93-101.
[47]王柏生,倪一清,高赞明.用概率神经网络进行结构损伤位置识别[J].振动工程学报,2001,14(1):60-65.
[48]Baruh H, Ratan S. Damage detection in flexible structures[J]. Journal of Sound and Vibration, 1993,166:21-30.
[49]Kim J T, Stubbs N. Model-uncertainty impact and damage-detection accuracy in plate girder[J]. Journal of Structural Engineering, ASCE, 1995,121:1 409-1 417.
[50]Topole K G, Stubbs N. Non-destructive damage evaluation of a structure from limited modal parameters[J]. Earthquake Engineering and Structural Dynamics, 1995,24:1 427- 1 436.
[51]Kim J T, Stubbs N. Modal-uncertainey impact and damage-detection accuraly in plate girder[J]. Journal of Structlye Engineering, ASCE, 1995,121:1 409-1 417.
[52]Sohn H, Law K H. Bayesian probabilistic approach for structure damage detection[J]. Earthquake Engrg and Struct Dyn,1997,26:1 259-1 281.
[53]Wang B S, Ni Y Q, Ko J M. Influence of measurement errors on structural damage identification using artificial neural networks[J]. Journal of Zhejiang University (Science), 2000, 1(3) :291 -300.
[54]王柏生,丁皓江,倪一清,等.模型参数误差对用神经网络进行结构损伤识别的影响[J].土木工程学报,2000,33(1):50-55.
[55]Johnson E A, Lam H F, Katafygiotis L S, et al. A benchmark problem for structural health monitoring and damage detection[A]. Proceedings of the Engineering Mechanics Specialty Conference[C]. Austin, Texas: ASCE, 2000.21-24.
[56]Ko J M, Ni Y Q, Wang J Y. Tsing Ma Suspension Bridge:ambient vibration survey campaigns[A]. Proceedings of the International Conference on Advanced Problems in Vibration Theory and Applications[C]. Xi'an: Science Press, 2000. 285-291.
[57]Ko J M, Ni Y Q, Zhou X T, et al. Structural damage alarming in Ting Kau bridge using auto-associative neural networks[A]. Advances in Structural Dynamics, Ⅱ[C]. Kidlington,Oxford: Elsevier Scierue Ltd, 2000. 1 021-1 028.
[58]Ko J M, Sun Z G, Ni Y Q. Multi-stage identification scheme for detecting damage in cable-stayed Kap Shui Mun Bridge[J].Engineering Structure, 2002,24 (7): 857- 868.
[59]王柏生,何国波.基于振动的混凝土坝损伤检测的可行性初探[J].水力发电,2003,29(4):72-75.
[60]王山山,任青文.黄河大堤防渗墙质量无损检测方法研究[J].河海大学学报(自然科学版),2004,32(4):405-409.
[61]张翠然,胡晓.佛子岭连拱坝动力试验及模态参数识别[J].水利水电技术,2002,33(12):58-72.
[62]Chin-Hsiung Lo, Tsu Shiu Wu. Identification of Fei-Tsui arch dam from both ambient and seismic response data[J]. Soil Dy namic and Earthquake Engineering, 1996,15:465-483.
[63]J Nasserzare, Y Lei S Eskandari-Shiri. Computation of natural frequencies and mode shapes of arch dams as an inverse problem[J]. Advances in Engineering Software, 2000,31: 827-836.
[64]冯新,周晶,范颖芳.基于模态观测的混凝土坝反演分析[J].水利学报,2004,(2):101-105.
