Robust trajectory tracking of a 3-DOF robotic arm using a Super-Twisting Fast finite time Non-singular Terminal Sliding Mode Control in the presence of perturbations

Alizadeh, Mousa; Samaei, Mohammad Hossein; Vahid Estakhri, Mahdi; Momeni, Hamidreza; Beheshti, Mohammad TH

doi:10.1177/09596518241229741

Proceedings of the Institution of Mechanical Engineers, Part I:

2024

DOI: 10.1177/09596518241229741

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Robust trajectory tracking of a 3-DOF robotic arm using a Super-Twisting Fast finite time Non-singular Terminal Sliding Mode Control in the presence of perturbations

Mousa Alizadeh,

Mohammad Hossein Samaei,

Mahdi Vahid Estakhri

et al.

Abstract: Extensive research has focused on enhancing the efficiency and stability of robotic arms. Sliding mode control (SMC) is commonly used in industrial robots due to its robustness and simplicity. However, SMC approaches have challenges such as chattering and slow convergence rates which can compromise tracking accuracy. To address these issues, this paper proposes a novel Super-Twisting Fast Non-singular Terminal Sliding Mode Control (ST-FNTSMC) strategy for a 3-DOF arm robot. The proposed approach significantly … Show more

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Gradient descent based dynamic optimization for VSG dominated microgrid

Li,

Wang,

Zhang

et al. 2024

The Journal of Engineering

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As the integration of distributed generation units into the power grid continues to grow, the system becomes increasingly vulnerable to power fluctuations and potential failures, which significantly challenge grid stability. Virtual synchronous generators (VSGs) have emerged as a key technology to enhance grid stability by emulating the behavior of traditional synchronous generators. However, with multiple VSGs operating within independent microgrids, coordinating their control parameters becomes critical to ensuring stable and reliable operation. This article proposes an optimization method based on the gradient descent algorithm to fine‐tune the control parameters of multiple VSGs in independent microgrids. A small‐signal model for microgrids with multiple VSGs is developed to analyze the system's dynamic behavior under small disturbances. The proposed method optimizes VSG control parameters to improve the frequency and voltage dynamic response and enhance the overall system stability. The simulation results demonstrate that the proposed multi‐VSG control parameter optimization method significantly enhances the frequency and voltage dynamic response, as well as the stability of the independent microgrid under small disturbances, offering a practical solution for improving microgrid performance in real‐world applications.

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Gradient descent based dynamic optimization for VSG dominated microgrid

Li,

Wang,

Zhang

et al. 2024

The Journal of Engineering

View full text Add to dashboard Cite

show abstract

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Robust trajectory tracking of a 3-DOF robotic arm using a Super-Twisting Fast finite time Non-singular Terminal Sliding Mode Control in the presence of perturbations

Cited by 1 publication

References 28 publications

Gradient descent based dynamic optimization for VSG dominated microgrid

Gradient descent based dynamic optimization for VSG dominated microgrid

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