Active control of mechanical vibrations

Thermoactive vibration control of shafts

The authors are engaged in a long-term research project studying the potential of fuzzy control strategies for active structural control in civil engineering applications. The advantage of this approach is its inherent robustness and its ability to handle the non-linear behaviour of the structure. M

The idea of active control of sound dates back to Paul Lueg in 1934 but it was not until the 1980s that a device, based on analogue componentry, came close to any practical application. Since then the advent of modern digital computing and digital signal processing has vastly advanced the possibilit

In many cases slender structures are lightly damped, a condition described as &lively', and can undergo large vibrations when subjected to tra$c or environmental forcing. One measure against above vibrations is the application of tuned vibration control facilities in structures. The "bre members wit

In order to investigate ways of reducing vibrations of building structures subjected to excitation acting on intermediate storey, active vibration controls are conducted with active control devices installed on di!erent #oors of the structure, and the e!ective location of control devices is also inv

Linear and non-linear theoretical and numerical analysis of ultimate response of overhead line conductors is treated in present paper. Interactive linear and non-linear conditions in ultimate response are considered. Numerical solution of non-linear problems appearing is made using the updated Lagra