Journal of Theoretical
and Applied Mechanics
45, 1, pp. 73-90, Warsaw 2007
and Applied Mechanics
45, 1, pp. 73-90, Warsaw 2007
Robust control design of a smart building structure
This paper presents an application of a design method of robust $ H_{\infty}$ optimal control to a structural control system. A dynamic model for a building structure under earthquake and wind excitations is considered. Structured uncertainties are introduced to reflect errors between the model and the reality. To obtain the best possible performance in the face of uncertainties, robust $ H_{\infty}$ optimal control for the active control structure is used. Relevant numerical techniques, which have been implemented with the help of MATLAB routines, are applied to solve the formulated structural control problem. By proper selection of the weight factor, the seismic response of the building structure can be reduced considerably. Numerical results show high robust performance of the proposed method.
Keywords: robust control; structural control; applied optimization; uncertainty system