A Fractional-Order Dynamic Modelling and Robust Control of Nonlinear Robotic Manipulators: A Memory-Driven Framework with FOPID and FO-SMC}

Gizachew Tirite Gellow

doi:10.5269/bspm.80449

A Fractional-Order Dynamic Modelling and Robust Control of Nonlinear Robotic Manipulators: A Memory-Driven Framework with FOPID and FO-SMC}

Autores

Gizachew Gellow applied mathematics, debre tabor university

DOI:

https://doi.org/10.5269/bspm.80449

Resumo

This paper develops a comprehensive fractional-order dynamic modelling and control framework for nonlinear robotic manipulators by integrating Caputo fractional derivatives to capture memory-dependent effects such as viscoelasticity, structural damping, and hysteresis—phenomena that classical integer-order models cannot represent accurately. Two fractional-order controllers, a fractional-order PID (FOPID) and a fractional-order sliding-mode controller (FO-SMC), are designed to exploit the long-term memory embedded in the system dynamics, thereby enhancing tracking accuracy, robustness, and transient behavior.

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Publicado

2026-03-16

Edição

v. 44 n. 11 (2026): Mathematics and Computing - Innovations and Applications (ICMSC-2025)

Seção

Conf. Issue: Mathematics and Computing - Innovations and Applications

Licença

When the manuscript is accepted for publication, the authors agree automatically to transfer the copyright to the (SPM).

The journal utilize the Creative Common Attribution (CC-BY 4.0).

Como Citar

Gellow, G. (2026). A Fractional-Order Dynamic Modelling and Robust Control of Nonlinear Robotic Manipulators: A Memory-Driven Framework with FOPID and FO-SMC}. Boletim Da Sociedade Paranaense De Matemática, 44(11), 1-13. https://doi.org/10.5269/bspm.80449