论文信息 - Synthesis of Stiffness and Mass Matrices from Experimental Vibration Modes

Synthesis of Stiffness and Mass Matrices from Experimental Vibration Modes

With highly complex structures, it is sometimes desirable to derive a dynamic model of the system from experimental vibration data. This paper presents algorithms for synthesizing the mass and stiffness matrices from experimentally derived modal data in a way which preserves the physical significance of the individual mass and stiffness elements. The synthesizing procedures allow for the incorporation of other mass and stiffness data, whether empirical or based on the analyst's insight. The mass and stiffness matrices are derived for a cantilever beam example and are compared with those obtained using earlier techniques.

R. Ross | R. G. Ross

[1] J. A. McGrew,et al. Orthogonalization of measured modes and calculation of influence coefficients. , 1969 .

[2] C. M. Reeves,et al. Function minimization by conjugate gradients , 1964, Comput. J..

[3] John A. Nelder,et al. A Simplex Method for Function Minimization , 1965, Comput. J..

[4] George A. Bekey,et al. System identification- an introduction and a survey , 1970 .

[5] Roger Fletcher,et al. A Rapidly Convergent Descent Method for Minimization , 1963, Comput. J..

[6] William P. Rodden,et al. A method for deriving structural influence coefficients from ground vibration tests. , 1967 .