Flatness-based feedforward control design for flexible structures

Abstract: This contribution presents a solution to the feedforward tracking control problem for flexible beam structures. The design methodology is based on the modal analysis of the structural dynamics to determine an inverse system representation by parameterizing modal states and system input in terms of a parameterizing function and its time-derivatives. Convergence of the resulting parameterizations is thereby directly related to the problem of motion planning. In addition, the analytical feedforward control design… Show more

“…A flatness-based feedforward tracking controller for a cantilevered flexible beam is designed in [6] based on the modal analysis of the distributed parameter system. In [7] a flatnessbased feedforward controller for a Euler-Bernoulli beam with viscous damping is developed using a systematic spectral approach based on the Riesz spectral properties of the system operator.…”

Vibration control of a flexible single-link robot: A backstepping controller for distributed parameter systems

“…A flatness-based feedforward tracking controller for a cantilevered flexible beam is designed in [6] based on the modal analysis of the distributed parameter system. In [7] a flatnessbased feedforward controller for a Euler-Bernoulli beam with viscous damping is developed using a systematic spectral approach based on the Riesz spectral properties of the system operator.…”

Vibration control of a flexible single-link robot: A backstepping controller for distributed parameter systems

Two-Degree-of-Freedom Tracking Control of Piezoelectric Tube Scanners in Two-Dimensional Scanning Applications