Application of optimal polynomial controller to a benchmark problem

In this paper, both the methods of continuous sliding mode control (CSMC) and continuous sliding mode control with compensators (CSMC&C) have been applied to two benchmark structures, namely, a building model equipped with an active mass driver system, and a building model equipped with an active te

A benchmark structural control problem has been proposed in an attempt to evaluate the effectiveness of various control algorithms. The problem encompasses the design of an Active Mass Damper (AMD) control system for a Multi-Degree-Of-Freedom (MDOF) building type structure subjected to earthquake-ty

This article outlines the application of statistical process control in the competitive analysis context of corporate Total Quality Management/Statistical Process Control (TQM/SPC). Using attribute measurements of competitor product samples and the descriptive statistics of SPC process analysis, the

A non-linear robust output feedback control is designed for a sixth-order model of an induction motor. The control uses only measurement of the rotor position and stator currents. It contains two observers, a second-order observer to estimate the rotor #ux from the stator current and a third-order h

Recently developed quadratic stability and performance control techniques are used to design controllers for the active mass driver (AMD) benchmark problem. Several designs are obtained and analysed to highlight the utility of the proposed technique. Solution through the use of linear matrix inequal