Backstepping Control Strategy for Overhead Crane System | ||
| Engineering and Technology Journal | ||
| Article 3, Volume 39, 3A, March 2021, Pages 370-381 PDF (591.5 K) | ||
| DOI: 10.30684/etj.v39i3A.1738 | ||
| Authors | ||
| Mohammed Y. Khudhair* 1; Mohammed Y. Hassan2; Saleem K. Kadhim3 | ||
| 1Control and Systems Engineering Department, University of Technology , Baghdad, Iraq, 61365@student.uotechnology.edu.iq | ||
| 2Control and Systems Engineering Department, University of Technology , Baghdad, Iraq 60003@uotechnology.edu.iq, | ||
| 3Control and Systems Engineering Department, University of Technology , Baghdad, Iraq Saleem.k.kadhim@uotechnologt.edu.iq | ||
| Abstract | ||
| Swinging on the shifted load by overhead crane is one of the main problems that all researchers suffer from. In addition, the crane system is a nonlinear and under-actuated system. Furthermore it is multivariable problem and it has coupling between its parameters (x, . In this work, a developed type of anti-sway Backstepping controller is proposed to solve swinging on the shifted load for full non-linear overhead crane system. Simulation results were validated against the related articles previously published which used Fuzzy Logic control. The enhancement is measured for Backstepping control as a swinging to achieve 50.7%, 38.1% and 42.5% when it is compared with Fuzzy Logic control. The performance of the overhead crane is enhanced from 70.4% to 51% at the control action consumptions. | ||
| Keywords | ||
| Overhead crane; swinging; Backstepping control; Fuzzy Logic | ||
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