Litcius/Paper detail

Resonance-Based Tossing Control for Bulk Materials Transportation of an Overhead Crane

Ho Duc Tho, Naoki Uchiyama, Kazuhiko Terashima

2020IEEE Transactions on Industrial Electronics20 citationsDOI

Abstract

Transportation of bulk materials using an overhead crane system possesses a special property, that is, the transferred materials can be dropped/discharged while in the air. In order to exploit such a unique feature, this article introduces a new concept, named tossing control methodology, to enhance transportation productivity. A specific type of tossing controller is proposed, which relies on the phenomenon of linear resonance to induce oscillation in periodically increasing amplitude. A novel resonance-based tossing controller-comprising an optimal linearization law and a resonance evoking component-is formulated. It will be shown that, under similar requirements of bulk materials transportation, conditions, and actuator constraints, the resonance-based tossing control can reduce the transferring time up to 26.5% compared with the well-known minimum-time vibration controller-the fastest member of the vibration control group. The results show that, although it is not always able to obtain a faster transportation using the resonance tossing controller, evidence for breaking the time limitation of the minimum-time vibration control is provided. Both simulation and experimental results are presented to verify the effectiveness of the proposed resonance tossing control method, and possible future developments are discussed.

Topics & Concepts

Controller (irrigation)Control theory (sociology)Coin flippingComputer scienceOverhead (engineering)LinearizationResonance (particle physics)Feedback linearizationEngineeringControl (management)MathematicsPhysicsNonlinear systemArtificial intelligenceStatisticsQuantum mechanicsParticle physicsOperating systemAgronomyBiologyDynamics and Control of Mechanical SystemsVehicle Dynamics and Control SystemsMechanical stress and fatigue analysis