地震模拟振动台三参量控制算法超调修正
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摘要
针对地震模拟振动台三参量控制算法中存在超调量过大的问题,提出了离线时域修正算法:通过时域内微分方程求解得出超调量存在的原因,进而从直接消除暂态分量出发,以三角函数、傅里叶变换为工具,提出了任意输入下超调量的修正方法,仿真结果表明该方法大大降低了超调量,减小了在线计算量。同时,通过三参量在地震模拟振动台控制系统中的应用仿真得出:修正后的三参量在降低超调的同时未产生任何不利影响,能很好的应用于地震模拟振动台系统控制。
Time-domain off-line modification algorithm was proposed to reduce the overshoot of shaking table TVC Algorithm.The cause of overshoot was found by solving differential equations of TVC in time domain.Then,for the purpose of eliminating the transient component,the overshoot modification method was acquired for arbitrary input function using trigonometric function and Fourier transformation.The simulation results with MATLAB showed that not only the overshoot but also the computational complexity can be reduced greatly.At the same time,the simulation results of the shaking table control also indicated that the modified TVC can reduce the overshoot and have no adverse effect,it can be applied in shaking table system control very well.
Time-domain off-line modification algorithm was proposed to reduce the overshoot of shaking table TVC Algorithm.The cause of overshoot was found by solving differential equations of TVC in time domain.Then,for the purpose of eliminating the transient component,the overshoot modification method was acquired for arbitrary input function using trigonometric function and Fourier transformation.The simulation results with MATLAB showed that not only the overshoot but also the computational complexity can be reduced greatly.At the same time,the simulation results of the shaking table control also indicated that the modified TVC can reduce the overshoot and have no adverse effect,it can be applied in shaking table system control very well.
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]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.
[3]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.
[4]Stoten D P,Shimizu N.The feed forward minimal control syn-thesis algorithm and its application to the control of shaking-tables[J].Journal of Systems and Control Engineering,2007,221(13):423-444.
[5]Tagawa Y,Kajiwara K.Controller development for the E-De-fense shaking table[J].Proceedings of the institution of me-chanical engineers partⅠ-Journal of Systems and Control en-gineering,2007,221(12):171-181.
[6]Shortreed J S,Seible F,Benzoni G.Simulation issues with a real-time,full-scale seismic testing system[J].Journal of Earthquake Engineering,2002,6(Sp.Iss.S1):185-201.
[7]Stoten D P,Gomez E G.Recent application Results of adap-tive control on multi-axis shaking tables[A].Seismic Design Practice into the Next Century-Research and Application[C],1998:381-387.
[8]Kajii S,Yasuda C,Maekawa A,et al.Development of numeri-cal dynamic simulators for a big size shaking table[J].Amer-ican Society of Mechanical Engineers,Pressure Vessels and Piping Division(Publication)PVP,2001,428(1):241-245.
[9]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.
[10]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.
[11]克拉夫,彭津,等.结构动力学.王光远等译[M].北京:科学出版社,1981.
[2]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.
[3]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.
[4]Stoten D P,Shimizu N.The feed forward minimal control syn-thesis algorithm and its application to the control of shaking-tables[J].Journal of Systems and Control Engineering,2007,221(13):423-444.
[5]Tagawa Y,Kajiwara K.Controller development for the E-De-fense shaking table[J].Proceedings of the institution of me-chanical engineers partⅠ-Journal of Systems and Control en-gineering,2007,221(12):171-181.
[6]Shortreed J S,Seible F,Benzoni G.Simulation issues with a real-time,full-scale seismic testing system[J].Journal of Earthquake Engineering,2002,6(Sp.Iss.S1):185-201.
[7]Stoten D P,Gomez E G.Recent application Results of adap-tive control on multi-axis shaking tables[A].Seismic Design Practice into the Next Century-Research and Application[C],1998:381-387.
[8]Kajii S,Yasuda C,Maekawa A,et al.Development of numeri-cal dynamic simulators for a big size shaking table[J].Amer-ican Society of Mechanical Engineers,Pressure Vessels and Piping Division(Publication)PVP,2001,428(1):241-245.
[9]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.
[10]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.
[11]克拉夫,彭津,等.结构动力学.王光远等译[M].北京:科学出版社,1981.
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