Joint structural parameter identification using a subset of frequency response function measurements

The necessity of accurate prediction of structural dynamics has led to extensive studies on identification of joint structural parameters. The present paper proposes an effective identification scheme for linearised joint parameters of a structure, which makes use of not only the measured frequency

The identification method for stiffness constant parameters and damping coefficient parameters of connections using test data is derived when a structure is attached to another structure via connections. Because of the inherent difficulties of deriving spatial models from test data, the frequency re

Identification of a practical structure is accomplished by using an expansion for the frequency response function in a series of orthogonal polynomial functions of the mass and stiffness matrices M and K. In the preceding paper (Part 1) it has been shown how to evaluate the orthogonal polynomial qua

The power absorbed by a finite structure is equated to the sum of the powers absorbed by each mode of vibration. The power in each mode may be measured from the acceleration cross spectral density between any two points and an envelope function which passes through the peaks in the transfer function