Ning Sun scite author profile

In this paper, we propose a novel offline minimumtime trajectory planning (MTTP) approach for underactuated overhead cranes. To the best of our knowledge, it is the first optimal solution to the MTTP problem for overhead crane systems, which simultaneously takes into account various constraints, including the bounded swing angle for the payload, bounded velocity, acceleration, and even jerk for the trolley. Different from existing approaches, by means of system discretization and augmentation, the quasi-convex optimization technique is successfully adopted to find the minimum-time solution while satisfying all the aforementioned constraints. Extensive simulation and experiments with comparisons to previously published methods are conducted to show the superior performance of the proposed method. Note that the results derived in this paper also serve as promising guidance in engineering applications, since it provides a performance limit, namely, the possible highest efficiency for automatic or manual operation of overhead cranes. Index Terms-Minimum-time trajectory planning (MTTP), overhead cranes, underactuated systems.0278-0046

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Adaptive Control for Pneumatic Artificial Muscle Systems With Parametric Uncertainties and Unidirectional Input Constraints

Sun

Liang

et al. 2020

IEEE Trans. Ind. Inf.

135

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Ning Sun

A Novel Kinematic Coupling-Based Trajectory Planning Method for Overhead Cranes

Transportation task-oriented trajectory planning for underactuated overhead cranes using geometric analysis

Neural Network-Based Adaptive Antiswing Control of an Underactuated Ship-Mounted Crane With Roll Motions and Input Dead Zones

Minimum-Time Trajectory Planning for Underactuated Overhead Crane Systems With State and Control Constraints

Adaptive Control for Pneumatic Artificial Muscle Systems With Parametric Uncertainties and Unidirectional Input Constraints

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