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Frequency-Modulation Input-Shaping Strategy for Double-Pendulum Overhead Cranes Undergoing Simultaneous Hoist and Travel Maneuvers

Sameer Arabasi, Ziyad N. Masoud

2022IEEE Access20 citationsDOIOpen Access PDF

Abstract

Large payloads hoisted by overhead cranes exhibit the same behavior as that of a double-pendulum. Changes in the hoisting cable length during payload transfer maneuvers give rise to time-dependent system frequencies rendering input-shaped commands ineffective. In this paper, a frequency-modulation input-shaping strategy that enables simultaneous hoist and travel maneuvers using single-mode input-shaping is presented. This strategy utilizes model-based feedback and partial feedback linearization techniques. Simulations are carried out using arbitrary travel and hoist commands combined with the common single-mode zero-vibration (ZV) and zero-vibration-derivative (ZVD) input-shapers. Sensitivity analysis reveals robust performance in the presence of high system uncertainties.

Topics & Concepts

Input shapingHoist (device)Control theory (sociology)Overhead craneComputer sciencePayload (computing)VibrationLinearizationFeedback linearizationVibration controlEngineeringNonlinear systemStructural engineeringPhysicsAcousticsArtificial intelligenceControl (management)Computer networkNetwork packetQuantum mechanicsDynamics and Control of Mechanical SystemsHydraulic and Pneumatic SystemsVibration and Dynamic Analysis
Frequency-Modulation Input-Shaping Strategy for Double-Pendulum Overhead Cranes Undergoing Simultaneous Hoist and Travel Maneuvers | Litcius