引文
[1]黄浩华.地震模拟振动台发展情况介绍[J].世界地震工程,1985(1):47-51.
[2]黄浩华.地震模拟振动台的设计与应用技术[M].北京,地震出版社,2008.
[3]方重.模拟地震振动台的近况及其发展[J].世界地震工程,1999,15(2):89-91+96.
[4]王燕华,程文瀼,陆飞,等.地震模拟振动台的发展[J].工程抗震与加固改造,2007,29(5):53-56+67.
[5]王进廷,金峰,张楚汉.结构抗震试验方法的发展[J].地震工程与工程振动,2005,25(4):37-43.
[6]Blondet M,Esparza C.Analysis of shaking table-structure interaction effects during seismic simulation tests[J].Earthquake Engineering&Structural Dynamics,1988,16:473-490.
[7]Crewe A,Taylor C,Mouzakis H,et al.The performance of the shaking table control systems at the National Technical University of Athens,Bris-tol University and ISMES,Italy[C]//10th Int.Seminor on Earthquake Prognostics.Cairo,1996.
[8]Symans M,Twitchell B.System identification of a uniaxial seismic simulator[C]//Proc.12th Engineering Mechanics Conference.American Soci-ety of Civil Engineers,Reston,VA,1998:758-761.
[9]Conte J P,Trombetti TL.Analytical modeling of a shaking table system[R].Structural Research at Rice;Report No.48.Department of CivilEngineering,Rice University,Houston,Texas,USA,1997.
[10]Trombetti TL,Conte J P,Durrani A J.Correlation studies between analytical and experimental dynamic behavior of the Rice University shakingtable[R].Structural Research at Rice,Report No.49.Department of Civil Engineering,Rice University,Houston,Texas,USA,1997.
[11]Conte J P,Trombetti TL.Linear dynamic modeling of a uni-axial servo-hydraulic shaking table system[J].Earthquake Engineering&Struc-tural Dynamics,2000,29(9):1375-140.
[12]Trombetti TL,Conte J P.Shaking table dynamics:results from a test-analysis comparison study[J].Journal of Earthquake Engineering,2002,6(4):513-551.
[13]Newell D P,Sain MK,Dai HL,et al.Nonlinear modeling and control of a hydraulic seismic simulator[C]//Proceedings of the 1995 AmericanControl Conference,1995,1:801-805.
[14]Shortreed J S,Seible F,Benzoni G.Simulation issues with a real-time,full-scale seismic testing system[J].Journal of Earthquake Engineer-ing,2002,6(Sp.Iss.S1):185-201.
[15]Chase J G,Hudson N H,Lin J,et al.Nonlinear shake table identification and control for near-field earthquake testing[J].Journal of Earth-quake Engineering,2005,9(4):461-482.
[16]Ozcelik O,Luco J E,Conte J P,et al.Experimental characterization,modeling and identification of the NEES-UCSD shake table mechanicalsystem[J].Earthquake Engineering&Structural Dynamics,2008,37(2):243-264.
[17]Plummer A R.A detailed dynamic model of a six-axis shaking table[J].Journal of Earthquake Engineering,2008,12(4):631-662.
[18]Kuehn J,Epp D,Patten W N.High-fidelity control of a seismic shake table[J].Earthquake Engineering&Structural Dynamics,1999,28(11):1235-1254.
[19]Ozcelik O,Luco J E,Conte J P.Identification of the mechanical subsystem of the NEES-UCSD shake table by a least-squares approach[J].Journal of Engineering Mechanics-ASCE,2008,134(1):23-34.
[20]Tagawa Y,Kajiwara K.Controller development for the E-Defense shaking table[J].Proceedings of the Institution of Mechanical Engineers PartⅠ-Journal of Systems and Control Engineering,2007,221(12):171-181.
[21]Ogawa N,Ohtani K,Katayama T,et al.Construction of a three-dimensional,large-scale,shaking table and development of core technology[C]//Seismic Design for Engineering Plant,2003:109-138.
[22]Takahashi Y,RodgerS P W,Epiphani J C.Optimal acceleration control of single-actuator earthquake simulator[C]//ASME-Paper69-WA/Aut-23,1969.
[23]Abedi-Hayati S,Samad,Auslander D.Control of a single-actuator shaking table[C]//American Society of Mechanical Engineers,1977.
[24]Abedi-Hayati S,Auslander,D M.Control of multi-actuator electro-hydraulic shaking tables[J].Fluidics Quarterly,1979,11(1):1-16.
[25]Dimirovski G M,Mamucevski D J,Jurukovski D V,et al.A two-level computer control of biaxial shaking table using three variable local con-trollers[C]//10th Triennial World Congress of the International Federation of Automatic Control,1988,3:45-50.
[26]韩俊伟,于丽明,赵慧,等.地震模拟振动台三状态控制的研究[J].哈尔滨工业大学学报,1999,31(3):21-28.
[27]Xu Y,Hu HX,Han J W.Modeling and controller design of a shaking table in an active structural control system[J].Mechanical Systems andSignal Processing,2008,22(8):1917-1923.
[28]Ammanagi S,Poornima V,Sera A,et al.Development of a digitally-controlled three-axis earthquake shake table[J].Current Science,2006,91(2):190-203.
[29]Kajii S,Yasuda C,Maekawa A,et al.Development of numerical dynamic simulators for a big size shaking table[J].American Society of Mechani-cal Engineers,Pressure Vessels and Piping Division(Publication)PVP,2001,428(1):241-245.
[30]Symans M,Twitchell B.System identification of a uniaxial seismic simulator[C]//Proceedings of 12th Engineering Mechanics Conference,A-merican Society of Civil Engineers,Reston,VA,1998:758-761.
[31]贾丽花.电液伺服地震模拟振动台控制算法的研究与实现[D].北京:北京交通大学,2006.
[32]Clark,A.Dynamic Characteristics of large multiple degree of freedom shaking tables[C]//Proceedings of the Tenth World Conference on Earth-quake Engineering,Madrid,Spain,1992:2823-2828.
[33]Kusner D A.,Rood J D,Burton G W.Signal reproduction fidelity of servo hydraulic testing equipment[C]//Proceedings of the Tenth WorldConference on Earthquake Engineering,Madrid,Spain1992:2683-2688.
[34]Carydis P G,Mouzakis HP,Vougioukas E A,et al.Comparative shaking table studies at the National University of Athens and at Bristol Univer-sity[C]//10th European Conference on Earthquake Engineering,Proceedings,Vienna,1994:2993-2997.
[35]Crewe,A J,Severn,R T.The European collaborative programme on evaluating the performance of shaking tables[J].Phil.Trans.Roy.Soc.London,2001,359(1786):1671-1696.
[36]Stoten,D P,Benchoubane H.Robustness of a minimal controller synthesis algorithm[J].International Journal of Control,1990,51(4):851?861.
[37]Stoten D P,Gomez E G.Recent application results of adaptive control on multi-axis shaking tables[C]//Seismic Design Practice into the NextCentury-Research and Application,1998:381-387.
[38]Stoten D P,Gomez E G.MCS adaptive control of shaking tables using retrofit strategies[C]//Proceedings of the Second IASTED InternationalConference-Control and Applications,1999:402-407.
[39]Stoten D P,Gomez E G.Adaptive control of shaking tables using the minimal control synthesis algorithm[J].Phil.Trans.Roy.Soc.London,2005,34(9):1171-1192.
[40]Stoten D P,Shimizu N.The feed forward minimal control synthesis algorithm and its application to the control of shaking-tables[J].Journal ofSystems and Control Engineering,2007,221(13):423-444.
[41]Shimizu N,Shinohara Y,Sato E.New development of control method of shaking table with bi-linear structures,Shimizu[J].ASME PressureVessels Piping Div Publ PVP,2002,445(1):75-82.
[42]Dozono Y,Horiuchi T,Katsumata H.Improvement of shaking-table control by real-time compensation of the reaction force caused by a non-linear specimen[J].ASME Pressure Vessels Piping Div Publ PVP,2001,428(1):247-255.
[43]Shen Yili,Yang Yun,Li Tianshi.The design of dynamic simulation system on earthquake surroundings[J].ACADJ XJTU,2003,15(1):102-106.
[44]Lee D J,Lim C W,Park Y,et al.The tracking control of uni-axial servo-hydraulic shaking table system using time delay control[C]//2006SICE-ICASE International Joint Conference,2006:3767-3770.
[45]Chen J Q,Zhang X Z,Tan P,et al.Application study of ILC with fuzzy neural network in shaking table control system[C]//Proceedings of theInternational Conference on Intelligent Systems and Knowledge Engineering(iske 2007),2007:1282-1282.
[46]Seto K,Fuji D,Hiramathu H,et al.Motion and vibration control of three dimensional flexible shaking table using LQI control approach[C]//Proceedings of the American Control Conference,2002:3040-3045.
[47]Phelan R M.Automatic control systems[M].Cornell University Press,Ithaca,NY,1977.
[48]Dai HL,Sain MK,Spencer B F.Using tensors to track earthquakes of hydraulic shaker tables[C]//Proceedings of the American Control Con-ference,1997:1-5.