Iterative learning control design for a discrete-time system under delay along the sample trajectory and input backlash
Pavel Pakshin, Julia Emelianova, Mikhail Emelianov
Actuator components of gantry robots, such as reduction gears or clutches, typically have nonlinear characteristics such as dead zone, hysteresis, or backlash. Iterative learning control (ILC) is widely used to achieve the high accuracy of repetitive operations performed by such robots. These nonlinearities can severely limit the achievable accuracy. However, their impact on ILC is not well understood. This paper considers a discrete time system under a control delay along the sample trajectory and with input backlash. The method of vector Lyapunov functions for repetitive processes is applied to design an ILC law that ensures the convergence of the
learning error. An example is given to demonstrate the effectiveness of the proposed ILC algorithm.
CYBERNETICS AND PHYSICS 2023, Vol. 12, Is.2, 136-144
https://doi.org/10.35470/2226-4116-2023-12-2-136-144