Author_Institution :
Fac. of Mech. Eng., Technion-Israel Inst. of Technol., Haifa, Israel
Abstract :
A new method of noncollocated controller design for flexible structures, governed by the wave equation, is proposed. First a transfer function, relating arbitrary actuation and measurement points, with general boundary conditions, is derived and its properties are investigated. A key element in that part is the existence of time delays due to the wave motion. Those delays play a major role in the controller design, which consists of two stages. In the first one, an inner collocated rate loop is closed in order to improve the system dynamic behavior. It is shown that there exists a controller that leads to a finite dimensional plus delay inner closed loop, which is the equivalent plant for the outer loop. In the second stage an outer noncollocated loop, with an observer-predictor structure, is closed. The resulting overall transfer function is second order, with arbitrarily assigned dynamics, plus delay.
Keywords :
control system synthesis; delays; flexible structures; multidimensional systems; wave equations; arbitrary actuation; boundary conditions; controller design; finite-dimensional-plus-delay inner closed loop; flexible structure control; inner collocated rate loop; measurement points; noncollocated controller design; observer-predictor structure; outer noncollocated loop; overall transfer function; system dynamic behavior; time delays; transfer function; wave equation; wave motion; Control systems; Damping; Delay effects; Flexible structures; Open loop systems; Optimal control; Partial differential equations; State feedback; Transfer functions; Velocity control;
