模型算法控制在结构振动控制中的应用研究
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摘要
预测控制的理论和应用发展很快,它的三个基本特征预测模型、滚动优化和反馈校正使得它满足了工业实际的要求。
本文以半主动控制为基本控制策略研究了预测控制在结构振动控制中的应用。介绍了目前预测控制和结构振动控制的发展和现状,同时分析了模型算法控制的基本理论优势。通过对建筑结构的分析研究建立了预测模型,结合内模控制的理论设计了半主动控制系统的控制器、并分析了系统的稳定性。最后对一个三层结构的半主动控制系统进行了仿真,从而分析了参数对系统性能的影响,并确定了参数选择的原则。由各种情况的闭环输出曲线和控制量变化曲线分析比较可知,模型算法控制应用与半主动控制系统有着良好的控制性能。这种基于模型算法控制的半主动控制一旦得到广泛应用,可大大提高对结构控制振动的效果。
The Predictive Control strategy has been developing quickly both in the theory research and application with its three characteristics of predictive model, receding horizon control construction and feedback correction meeting the industrial process control's needs.
In this paper, we study application of Predictive Control Algorithm in Structure Vibration Control. After introducing the research and development of Predictive Control and Structure Vibration Control, We analyze the basic theory and prepotency of Model Algorithm Control (MAC) . We create Predictive Model by analyzing system of Semi-Active Control. We design the controller of Semi-Active Control system, research stability of system with Internal Model Control (IMC) theory. At last, take a three stories building for example, we select all kinds of parameters and analyze the effect of these parameters. Many simulation curves are given after analyzing those curves we can draw a conclusion that Model Algorithm Control algorithm can improve the control property of system greatly. It is a good algorithm, once the method of Semi-Active Control based on MAC is applied in building, control quality will be enhanced enormously.
本文以半主动控制为基本控制策略研究了预测控制在结构振动控制中的应用。介绍了目前预测控制和结构振动控制的发展和现状,同时分析了模型算法控制的基本理论优势。通过对建筑结构的分析研究建立了预测模型,结合内模控制的理论设计了半主动控制系统的控制器、并分析了系统的稳定性。最后对一个三层结构的半主动控制系统进行了仿真,从而分析了参数对系统性能的影响,并确定了参数选择的原则。由各种情况的闭环输出曲线和控制量变化曲线分析比较可知,模型算法控制应用与半主动控制系统有着良好的控制性能。这种基于模型算法控制的半主动控制一旦得到广泛应用,可大大提高对结构控制振动的效果。
The Predictive Control strategy has been developing quickly both in the theory research and application with its three characteristics of predictive model, receding horizon control construction and feedback correction meeting the industrial process control's needs.
In this paper, we study application of Predictive Control Algorithm in Structure Vibration Control. After introducing the research and development of Predictive Control and Structure Vibration Control, We analyze the basic theory and prepotency of Model Algorithm Control (MAC) . We create Predictive Model by analyzing system of Semi-Active Control. We design the controller of Semi-Active Control system, research stability of system with Internal Model Control (IMC) theory. At last, take a three stories building for example, we select all kinds of parameters and analyze the effect of these parameters. Many simulation curves are given after analyzing those curves we can draw a conclusion that Model Algorithm Control algorithm can improve the control property of system greatly. It is a good algorithm, once the method of Semi-Active Control based on MAC is applied in building, control quality will be enhanced enormously.
引文
[1] Richalet J, et al. Model Predictive Heuristic Control: Application to Industrial Processes. Automatic 1978, 14(5): 413-428.
[2] Rouhani R, Mehra R.K. Model Algorithmic Control(MAC), Basic Theoretical Properties. Automatic. 1982, 18(4): 401-414.
[3] Culter C R,Ramaker B L. Dynamic Matrix Control -A Computer Control Algorithm. Proc. JACC. SanFranciso, 1980.
[4] Clarke D W, Mohtadi C Tuffs P S. Generalized Predictive Control. Pt.1. The Basic Algorithm,pt.2. Extensions and Interpretations.Automatica. 1987,23(2): 137-160.
[5] Lelic M A, Zarrop M B. Generalized Poleplacement Self-tuning Controller.Int.J.Control. 1987,46(2): 547-568.
[6] Garcia C E, Morari M. Internal Model Control.1. A Unifying Review and Some New Results. Ind.Eng.Chem.Pro.Des.Dev. 1982,21(2):308-323.
[7] Richalet J. Predictive Function Control :Application to fast and accurate Robots. Proc, Of 10th IFAC World Congress. Munich FRG: 251-258.
[8] Bai H. Approach of some problems in elastic structure vibration control [D]. Beijing: Peking University, 1995.
[9] 李敏霞 刘季 主动结构振动控制算法综述 世界地震工程 1998.12,Vol(14):61:69.
[10] Kobory, T et al. Shaking Table Experiment of Multi-story Seismic Response Controlled Structures with Variable Stiffness(AVS) System. Proc. 8th. Japan Earthquake Eng. Symposium, Tokyo, 1990:1923-1928.
[11] Yang. J .N Wu .J.C and Z. Li, Control of Seismic-Excited Building using Active Variable Stiffness System, J. of Struct. Engineering, 1996. 18(8): 589-596.
[12] 阎维明、周福霖、谭平,土木工程结构振动控制的研究进展,世界地震工程 1997 Vol.13(2):8-19.
[13] 毛剑琴 卜庆中 张杰 范国滨,结构振动控制的新进展,控制理论与应用 2001 Vol.5:647-651.
[14] Garcia C E, Morari M. Internal Model Control. 1 .A Unifying Review and Some New Results. Ind. Eng. Chem. Pro.Des.Dev. 1982,21 (2): 308-323.
[15] Maurath P R. Mellichamp D A, Seborg D E. Predictive Controller Design for SISO Systems. Proc. A.C.C. boston,1985.
[16] Bruijin P M. Bootsma L J. Predictive Control Using Impulse Response Models. 6th IFAC/IFIP Conference. Dusseldorf, 1980.
[17] 陈静 瞿伟廉 肖纯,预测控制在结构振动控制中的应用研究,武汉理工大学学报,2001 Vol 23:447-450.
[18] Song T T. An overview of active and hybrid structure control research in the U.S [J] .The Struct. Dyn. Design of Tall Buidings 1993,2(1):192-209.
[19] 林建华 结构半主动控制新技术——主动变刚度/阻尼控制 福建建筑 2000 Vol 1.
[20] 赵光恒,土建结构振动控制研究进展,地震学刊,1999 Vol 3:35-42.
[21] 武田寿一 建筑物隔震、防振与控振 北京 中国建筑工业出版社 1997.
[22] Narito Kurata, Takuji Korbori, Motochi Takahashi, Naoki Niwa and Hiroshi Midorikawa Actual Seimic Response Controlled Building with Semi-active Damper System, Earthquake Engineering and Structural Dynamics, 1999(28): 1247-1447.
[23] Kobori. T et al. performance Verification of Actual Seismic Response Controlled Structure-2: with AVS Systems. Proc. 10WCEE Madrid, 1992,7:4177-4188.
[24] Kobori. T et al. Dynamic Intelligent Building-Active Seismic Response Control, Intelligent Structure-2: Monitoring and Control Y. k. Wen(Ed). Elsevier Applied Serien New York 1992.279-282.
[25] David C. Nemir et al Seismic Motion Control Using Variable Stiffness. J.of Structural Engineering. 1994,120(4) 1291-1306.
[26] Yang, J.N et.al. Active stiffness Control of Seismic-Excited Buiding, Proc.3rd pan American Congress of Applied Congress of Applied Mechanics-PACAM Ⅲ.Sao Paolo,Brazil January 1993.568-571.
[27] Kawaashima, Ket al Effectiveness of the variable damper for reducing Seismic response of highway bridges against earthquakes proc.2end us-Japan Workshop on Earthquake protective System for Bridge J-I PWRI, Tsukuba. Japan. 1992.
[28] 孙作玉 刘季 可变阻尼器性能及半主动控制律研究 哈尔滨建筑大学学报 1998。Vol.31.No.4:9-13.
[29] 孙作玉 隋丽丽 变阻尼半主动结构控制台试验 地震工程与工程振动 2000。Vol.20.No.4:106-111.
[30] 李敏霞 刘季 垮层变刚度半主动结构振动控制 哈尔滨建筑大学学报 1999 Vol 32:18-32。
[31] 瞿伟廉 陈朝晖 徐幼麟 压电材料智能磨檫阻尼器对高耸钢塔结构风振反应的半主动控制 地震工程与工程振动 2000。Vol.20.No.1:94-99.
[32] 谢凌志 于建华 结构半主动控制的发展动态 四川建筑 2001.5,Vol(21):40-41.
[33] 王肇民 邹祖军 张湛 嘉定电视塔结构振动控制试验研究 特种结构 1994.Vol(11).
[34] G. W. Housner, et al, Structure Control:Past,Present,and Future,Journal of Engineering Mechanics, 1997(123),9.
[35] 王军武 智能材料驱动器的研究与应用 武汉工业大学学报 2000,Vol(22):4-6.
[36] 韩建平 李慧等 智能材料与土木工程结构振动控制 甘肃工业大学学报 2002.3,Vol(28).
[37] 瞿伟廉 项海帆 ER 智能材料在结构振动控制中的应用 地震工程与工程振动 1998,Vol(18):49-55
[38] 戴忠达 自动控制理论基础 清华大学出版社 2001.
[39] 舒迪前 预测控制系统及其应用 机械工业出版社 1996.
[40] 席裕庚 预测控制 国防出版社 1993.
[41] 徐昕 李涛 伯晓陈 MATLAB工具箱应用指南——控制工程篇 电子工业出版社 2000.
[42] 欧阳黎明MATLAB——控制系统设计 国防工业出版社 2001.
[43] 欧进萍 隋丽丽 结构振动控制的半主动磁流变质量驱动器(MR-AMD)地震工程与工程振动 2002。Vol.22.No.2:108-112.
[44] 李宏男 结构多维抗震理论与设计方法 科学出版社 1998.
[45] 李宏男 建筑抗震设计原理 中国建筑工业出版社,1996.
[46] 胡律贤 地震工程学 地震出版社,1988.
[47] Iyengar R N et al. A Nonstationary Random Process Model for Earthquake Accelerograms. BSSA, 1969, 59(3).
[48] Williams D. Displacements of a Linear Elastic System under Given Transient Load. Aeronautical Quarterly,1949,1 :Part Ⅰ.
[49] 李杰 李国强 地震工程学导论 地震出版社 1992.
[50] 方同 工程随机振动 国防工业出版社 1995.
[51] 周云钟 模型算法控制 自动化仪器与仪表 1995,Vol(61).
[52] 韩希吕 梁杰 孔大力 模型算法控制与常规PI调节规律的关系 沈阳电力高等专科学校学报 2002,Vol(4):33-36.
[53] 王剑 一种改进的模型算法控制 控制与决策 2000,Vol(15).
[54] 史小平 许天舒 核动力堆热功率跟踪系统的多步模型算法控制仿真研究 原子能科学研究 2001,Vol(35):525-530.
[55] 李润德 薛云灿 参考轨迹可变的模型算法控制 河海大学机械学院学报 1995,Vol(9):33-39.
[2] Rouhani R, Mehra R.K. Model Algorithmic Control(MAC), Basic Theoretical Properties. Automatic. 1982, 18(4): 401-414.
[3] Culter C R,Ramaker B L. Dynamic Matrix Control -A Computer Control Algorithm. Proc. JACC. SanFranciso, 1980.
[4] Clarke D W, Mohtadi C Tuffs P S. Generalized Predictive Control. Pt.1. The Basic Algorithm,pt.2. Extensions and Interpretations.Automatica. 1987,23(2): 137-160.
[5] Lelic M A, Zarrop M B. Generalized Poleplacement Self-tuning Controller.Int.J.Control. 1987,46(2): 547-568.
[6] Garcia C E, Morari M. Internal Model Control.1. A Unifying Review and Some New Results. Ind.Eng.Chem.Pro.Des.Dev. 1982,21(2):308-323.
[7] Richalet J. Predictive Function Control :Application to fast and accurate Robots. Proc, Of 10th IFAC World Congress. Munich FRG: 251-258.
[8] Bai H. Approach of some problems in elastic structure vibration control [D]. Beijing: Peking University, 1995.
[9] 李敏霞 刘季 主动结构振动控制算法综述 世界地震工程 1998.12,Vol(14):61:69.
[10] Kobory, T et al. Shaking Table Experiment of Multi-story Seismic Response Controlled Structures with Variable Stiffness(AVS) System. Proc. 8th. Japan Earthquake Eng. Symposium, Tokyo, 1990:1923-1928.
[11] Yang. J .N Wu .J.C and Z. Li, Control of Seismic-Excited Building using Active Variable Stiffness System, J. of Struct. Engineering, 1996. 18(8): 589-596.
[12] 阎维明、周福霖、谭平,土木工程结构振动控制的研究进展,世界地震工程 1997 Vol.13(2):8-19.
[13] 毛剑琴 卜庆中 张杰 范国滨,结构振动控制的新进展,控制理论与应用 2001 Vol.5:647-651.
[14] Garcia C E, Morari M. Internal Model Control. 1 .A Unifying Review and Some New Results. Ind. Eng. Chem. Pro.Des.Dev. 1982,21 (2): 308-323.
[15] Maurath P R. Mellichamp D A, Seborg D E. Predictive Controller Design for SISO Systems. Proc. A.C.C. boston,1985.
[16] Bruijin P M. Bootsma L J. Predictive Control Using Impulse Response Models. 6th IFAC/IFIP Conference. Dusseldorf, 1980.
[17] 陈静 瞿伟廉 肖纯,预测控制在结构振动控制中的应用研究,武汉理工大学学报,2001 Vol 23:447-450.
[18] Song T T. An overview of active and hybrid structure control research in the U.S [J] .The Struct. Dyn. Design of Tall Buidings 1993,2(1):192-209.
[19] 林建华 结构半主动控制新技术——主动变刚度/阻尼控制 福建建筑 2000 Vol 1.
[20] 赵光恒,土建结构振动控制研究进展,地震学刊,1999 Vol 3:35-42.
[21] 武田寿一 建筑物隔震、防振与控振 北京 中国建筑工业出版社 1997.
[22] Narito Kurata, Takuji Korbori, Motochi Takahashi, Naoki Niwa and Hiroshi Midorikawa Actual Seimic Response Controlled Building with Semi-active Damper System, Earthquake Engineering and Structural Dynamics, 1999(28): 1247-1447.
[23] Kobori. T et al. performance Verification of Actual Seismic Response Controlled Structure-2: with AVS Systems. Proc. 10WCEE Madrid, 1992,7:4177-4188.
[24] Kobori. T et al. Dynamic Intelligent Building-Active Seismic Response Control, Intelligent Structure-2: Monitoring and Control Y. k. Wen(Ed). Elsevier Applied Serien New York 1992.279-282.
[25] David C. Nemir et al Seismic Motion Control Using Variable Stiffness. J.of Structural Engineering. 1994,120(4) 1291-1306.
[26] Yang, J.N et.al. Active stiffness Control of Seismic-Excited Buiding, Proc.3rd pan American Congress of Applied Congress of Applied Mechanics-PACAM Ⅲ.Sao Paolo,Brazil January 1993.568-571.
[27] Kawaashima, Ket al Effectiveness of the variable damper for reducing Seismic response of highway bridges against earthquakes proc.2end us-Japan Workshop on Earthquake protective System for Bridge J-I PWRI, Tsukuba. Japan. 1992.
[28] 孙作玉 刘季 可变阻尼器性能及半主动控制律研究 哈尔滨建筑大学学报 1998。Vol.31.No.4:9-13.
[29] 孙作玉 隋丽丽 变阻尼半主动结构控制台试验 地震工程与工程振动 2000。Vol.20.No.4:106-111.
[30] 李敏霞 刘季 垮层变刚度半主动结构振动控制 哈尔滨建筑大学学报 1999 Vol 32:18-32。
[31] 瞿伟廉 陈朝晖 徐幼麟 压电材料智能磨檫阻尼器对高耸钢塔结构风振反应的半主动控制 地震工程与工程振动 2000。Vol.20.No.1:94-99.
[32] 谢凌志 于建华 结构半主动控制的发展动态 四川建筑 2001.5,Vol(21):40-41.
[33] 王肇民 邹祖军 张湛 嘉定电视塔结构振动控制试验研究 特种结构 1994.Vol(11).
[34] G. W. Housner, et al, Structure Control:Past,Present,and Future,Journal of Engineering Mechanics, 1997(123),9.
[35] 王军武 智能材料驱动器的研究与应用 武汉工业大学学报 2000,Vol(22):4-6.
[36] 韩建平 李慧等 智能材料与土木工程结构振动控制 甘肃工业大学学报 2002.3,Vol(28).
[37] 瞿伟廉 项海帆 ER 智能材料在结构振动控制中的应用 地震工程与工程振动 1998,Vol(18):49-55
[38] 戴忠达 自动控制理论基础 清华大学出版社 2001.
[39] 舒迪前 预测控制系统及其应用 机械工业出版社 1996.
[40] 席裕庚 预测控制 国防出版社 1993.
[41] 徐昕 李涛 伯晓陈 MATLAB工具箱应用指南——控制工程篇 电子工业出版社 2000.
[42] 欧阳黎明MATLAB——控制系统设计 国防工业出版社 2001.
[43] 欧进萍 隋丽丽 结构振动控制的半主动磁流变质量驱动器(MR-AMD)地震工程与工程振动 2002。Vol.22.No.2:108-112.
[44] 李宏男 结构多维抗震理论与设计方法 科学出版社 1998.
[45] 李宏男 建筑抗震设计原理 中国建筑工业出版社,1996.
[46] 胡律贤 地震工程学 地震出版社,1988.
[47] Iyengar R N et al. A Nonstationary Random Process Model for Earthquake Accelerograms. BSSA, 1969, 59(3).
[48] Williams D. Displacements of a Linear Elastic System under Given Transient Load. Aeronautical Quarterly,1949,1 :Part Ⅰ.
[49] 李杰 李国强 地震工程学导论 地震出版社 1992.
[50] 方同 工程随机振动 国防工业出版社 1995.
[51] 周云钟 模型算法控制 自动化仪器与仪表 1995,Vol(61).
[52] 韩希吕 梁杰 孔大力 模型算法控制与常规PI调节规律的关系 沈阳电力高等专科学校学报 2002,Vol(4):33-36.
[53] 王剑 一种改进的模型算法控制 控制与决策 2000,Vol(15).
[54] 史小平 许天舒 核动力堆热功率跟踪系统的多步模型算法控制仿真研究 原子能科学研究 2001,Vol(35):525-530.
[55] 李润德 薛云灿 参考轨迹可变的模型算法控制 河海大学机械学院学报 1995,Vol(9):33-39.