MODAL PARAMETER ESTIMATION USING THE STATE SPACE METHOD

A cumulant-based approach for the estimation of eigenfrequencies and damping coe$cients of a vibrating system excited by a random force is presented. Cumulants of sensors output of the system are used with a state-space representation to provide a method for modal parameter estimation. This method u

This article describes the underlying theory of a newly developed algorithm for online modal parameter identification. These online subspace estimation methods use eigenanalysis for data filtering, and are derived from a recent multi-input, multi-output batch algorithm. One method is obtained by der

This article describes the underlying theory and hardware implementation of a newly developed algorithm for online modal parameter identification. An online modal parameter estimation algorithm using subspace methods is applied to both model and experimental data for a 4-m laboratory truss structure

The paper deals with the modal parameter estimation from the instantaneous envelope and phase\*achievable by the Hilbert transform\*of a single mode "ltered from a frequency response function by the Gauss "lter. It is possible, modulating the Gauss function, to put its maximum on the desired frequen

## Abstract Theoretical well functions have been derived over the years to predict ground water level behaviour in aquifer systems under stress owing to groundwater extraction. The drawdown data collected during pump tests are typically analysed using graphical curve‐matching procedures to estimate