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Time domain system identification of unknown initial conditions
引用本文:SUNG Wen-pei,MATZEN Vernon C.,SHIH Ming-hsiang. Time domain system identification of unknown initial conditions[J]. Journal of Zhejiang University. Science. B, 2004, 0(9)
作者姓名:SUNG Wen-pei  MATZEN Vernon C.  SHIH Ming-hsiang
作者单位:Department of Landscape Design and Management,National Chin-Yi Institute of Technology,Taiwan 41111,China,Department of Civil Engineering,North Carolina State University,Raleigh,NC 27695,U.S.A.,Department of Construction Engineering,National Kaoshiang First University of Science and Technology,Taiwan 824,China
基金项目:Project (No. NSC-93-221 l-E-167-002) supported by the National Science Council of Taiwan, China
摘    要:System identification is a method for using measured data to create or improve a mathematical model of the object being tested. From the measured data however, noise is noticed at the beginning of the response. One solution to avoid this noise problem is to skip the noisy data and then use the initial conditions as active parameters, to be found by using the system identification process. This paper describes the development of the equations for setting up the initial conditions as active parameters. The simulated data and response data from actual shear buildings were used to prove the accuracy of both the algorithm and the computer program, which include the initial conditions as active parameters. The numerical and experimental model analysis showed that the value of mass, stiffness and frequency were very reasonable and that the computed acceleration and measured acceleration matched very well.


Time domain system identification of unknown initial conditions
SUNG Wen-pei,MATZEN Vernon C,SHIH Ming-hsiang. Time domain system identification of unknown initial conditions[J]. Journal of Zhejiang University. Science. B, 2004, 0(9)
Authors:SUNG Wen-pei  MATZEN Vernon C  SHIH Ming-hsiang
Abstract:System identification is a method for using measured data to create or improve a mathematical model of the object being tested. From the measured data however, noise is noticed at the beginning of the response. One solution to avoid this noise problem is to skip the noisy data and then use the initial conditions as active parameters, to be found by using the system identification process. This paper describes the development of the equations for setting up the initial conditions as active parameters. The simulated data and response data from actual shear buildings were used to prove the accuracy of both the algorithm and the computer program, which include the initial conditions as active parameters. The numerical and experimental model analysis showed that the value of mass, stiffness and frequency were very reasonable and that the computed acceleration and measured acceleration matched very well.
Keywords:Noise   Initial conditions   Gauss-Newton   Active Parameters
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