A Statistical Non-linearization Technique In Structural Dynamics

Neural networks are applied to the identi"cation of non-linear structural dynamic systems. Two complementary problems inspired from customer surveys are successively considered. Each of them calls for a di!erent neural approach. First, the mass of the system is identi"ed based on acceleration record

A generalized formulation of the Energy-Momentum Methodwill be developed within the framework of the Generalized-Methodwhich allows at the same time guaranteed conservation or decay of total energy and controllable numerical dissipation of unwanted high frequency response. Furthermore, the latter al

An identification technique is devised for SDOF dynamical mechanical systems under random excitations. The system is assumed to be governed by a non-linear equation of motion in general form, in which the restoring force and the dissipative terms are given by arbitrary power functions. Algebraic equ

The growth rate of the Phycomyces sporangiophore fluctuates under constant environmental conditions. To test for deterministic non-linearity in these growth-rate fluctuations, we applied variants of several recently developed techniques. We found that wild-type sporangiophores have a significant non

In this paper the non-linear modal interaction is examined betwen liquid hydrodynamic impact and an elastic support structure. The liquid impact is modelled based on a phenomenological concept by introducing a power non-linearity with a higher exponent. A special saw-tooth time transformation (STTT)

Tangent spaces in non-linear dynamical systems are state dependent. Hence, it is generally not possible to exactly represent a non-linear dynamical system by a linear one over "nite segments of the evolving trajectories in the phase space. It is known from the well-known theorem of Hartman and Grobm