Iterative Contraction Stability Control Strategy for Planar Prismatic-Rotational Underactuated Robot

Huang, Zixin; Wei, Shaoqi; Chen, Zhen; Wang, Lejun

doi:10.1109/access.2023.3281556

Cited by 3 publications

(1 citation statement)

References 30 publications

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“…Underactuated systems are a crucial area of research in nonlinear control theory and robotics [1,2]. Underactuated systems have fewer independent inputs than degrees of freedom [3,4], such as balance bikes [5], flexible robots [6], crane systems [7], surface vessels [8], and quadcopter drones [9]. Underactuated systems can occur for a number of reasons:…”

Section: Introductionmentioning

confidence: 99%

Comprehensive Stable Control Strategy for a Typical Underactuated Manipulator Considering Several Uncertainties

Huang,

Wang,

Zeng

et al. 2024

Applied Sciences

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This article proposes a comprehensive stable control strategy for the planar multi-link underactuated manipulator (PMLUM), considering several uncertainties. According to the nilpotent approximation property, the control procedure is split into two stages. In the first stage of control, we postulate the idea of model degradation, reducing the PMLUM to a planar virtual Pendubot (PVP). This occurs by controlling the active link (AL) to a specific desired position and the passive link (PL) moves along with it. When the AL moves to the desired position, the second phase of control is entered. Meanwhile, all ALs are regarded as a whole, so the PMLUM can be regarded as a mechanical arm with 2-DOF. In the second stage of control, due to the nilpotent approximation feature of the PVP, the PVP is guided to the desired angle using the iterative steering technique. Simulation experiments are carried out on active–active–passive (AAP) and active–active–active–passive (AAAP) systems under major uncertainties, which contain initial velocity and torque disturbances. The final results validate the effectiveness of the method proposed.

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Section: Introductionmentioning

confidence: 99%

Comprehensive Stable Control Strategy for a Typical Underactuated Manipulator Considering Several Uncertainties

Huang,

Wang,

Zeng

et al. 2024

Applied Sciences

Self Cite

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Motion Planning and Tracking Control via Basis Function for Swarm Underactuated Robots Based on PSO Algorithm

Zeng,

Huang,

Wang

et al. 2024

Lecture Notes in Electrical Engineering

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Two-Stage Control Strategy Based on Motion Planning for Planar Prismatic–Rotational Underactuated Robot

Li,

Wei,

Huang

2024

Actuators

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Intelligent robots are often used to explore various areas instead of humans. However, when the driving joint is damaged, the actuated robot degenerates to an underactuated robot, and the traditional control method is not suitable for the underactuated robot. In this work, a two-stage control approach for a planar prismatic–rotational (PR) underactuated robot is introduced. Firstly, we establish the dynamic model and describe the underactuated constraint between an underactuated rotational joint and active prismatic joint. Secondly, the trajectory with multiple parameters is planned to ensure that the two joints reach the target position. Based on underactuated constraints and the evaluation function, the differential evolution algorithm (DEA) is used to optimize these parameters. After that, in stage 1, we design the controller to move the active prismatic joint to the desired position. Meanwhile, the underactuated rotational joint is rotating freely. In stage 2, we design the controller for the active prismatic joint to track the planned trajectory. By means of this strategy, both joints reach their target locations simultaneously. The final simulation result demonstrates that this strategy is effective.

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Iterative Contraction Stability Control Strategy for Planar Prismatic-Rotational Underactuated Robot

Cited by 3 publications

References 30 publications

Comprehensive Stable Control Strategy for a Typical Underactuated Manipulator Considering Several Uncertainties

Comprehensive Stable Control Strategy for a Typical Underactuated Manipulator Considering Several Uncertainties

Motion Planning and Tracking Control via Basis Function for Swarm Underactuated Robots Based on PSO Algorithm

Two-Stage Control Strategy Based on Motion Planning for Planar Prismatic–Rotational Underactuated Robot

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