Applications of Modelling and Simulation (Jan 2020)

Modelling and Fuzzy Logic Control of an Underactuated Tower Crane System

  • Liyana Ramli,
  • Izzuddin M. Lazim,
  • H. I. Jaafar,
  • Z. Mohamed

Journal volume & issue
Vol. 4
pp. 1 – 11

Abstract

Read online

Tower crane is one of the flexible maneuvering systems that has been applied pervasively as a powerful big-scale construction machine. The under-actuated tower crane system has nonlinearity behavior with a coupling between translational and slew motions which increases the crane control challenge. In practical applications, most of the tower cranes are operated by a human operator which lead to unsatisfactory control tasks. Motivated to overcome the issues, this paper proposes a fuzzy logic controller based on single input rule modules dynamically connected fuzzy inference system for slew/translational positioning and swing suppressions of a 3 degree-of-freedom tower crane system. The proposed method can reduce the number of rules significantly, resulting in a simpler controller design. The proposed method achieves higher suppressions of at least 56% and 81% in the overall in-plane and out-plane swing responses, respectively as compared to PSO based PID+PD control.

Keywords