Nonlinear vibration mitigation of a crane's payload using pendulum absorber

The paper proposes and investigates nonlinear vibrations mitigation strategies of an externally excited pendulum. This problem is highly relevant to the crane's payload behavior, which dynamics is typically described by a nonlinear pendulum model. Currently, there are various active control strategies to mitigate swinging vibrations of the payload that require some knowledge on the payload state, but, to the authors' best knowledge, there are no passive measures to mitigate such vibrations. The proposed strategies involve the utilization of another pendulum, which adjustable mass and length can tune the pendulum nonlinear characteristics to reduce the vibrations of the payload. The obtained results for the nonlinear system have identified the optimal configuration of the absorber and the appropriate set of parameters, which allow reducing the payload's amplitude of vibrations more than five times. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

This paper proposes nonlinear vibration mitigation strategies for an externally excited pendulum, which involves the use of an adjustable mass and length pendulum to reduce swinging vibrations of the payload. By optimizing the configuration of the absorber and parameters, the results show that the payload's vibration amplitude can be reduced by more than five times.