Abbas Tariverdi scite author profile

This paper introduces and validates a real-time dynamic predictive model based on a neural network approach for soft continuum manipulators. The presented model provides a real-time prediction framework using neural-network-based strategies and continuum mechanics principles. A time-space integration scheme is employed to discretize the continuous dynamics and decouple the dynamic equations for translation and rotation for each node of a soft continuum manipulator. Then the resulting architecture is used to develop distributed prediction algorithms using recurrent neural networks. The proposed RNN-based parallel predictive scheme does not rely on computationally intensive algorithms; therefore, it is useful in real-time applications. Furthermore, simulations are shown to illustrate the approach performance on soft continuum elastica, and the approach is also validated through an experiment on a magnetically-actuated soft continuum manipulator. The results demonstrate that the presented model can outperform classical modeling approaches such as the Cosserat rod model while also shows possibilities for being used in practice.

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Dynamic modeling of soft continuum manipulators using lie group variational integration

Tariverdi

Venkiteswaran

Martinsen

et al. 2020

PLoS ONE

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This paper presents the derivation and experimental validation of algorithms for modeling and estimation of soft continuum manipulators using Lie group variational integration. Existing approaches are generally limited to static and quasi-static analyses, and are not sufficiently validated for dynamic motion. However, in several applications, models need to consider the dynamical behavior of the continuum manipulators. The proposed modeling and estimation formulation is obtained from a discrete variational principle, and therefore grants outstanding conservation properties to the continuum mechanical model. The main contribution of this article is the experimental validation of the dynamic model of soft continuum manipulators, including external torques and forces (e.g., generated by magnetic fields, friction, and the gravity), by carrying out different experiments with metal rods and polymerbased soft rods. To consider dissipative forces in the validation process, distributed estimation filters are proposed. The experimental and numerical tests also illustrate the algorithm's performance on a magnetically-actuated soft continuum manipulator. The model demonstrates good agreement with dynamic experiments in estimating the tip position of a Polydimethylsiloxane (PDMS) rod. The experimental results show an average absolute error and maximum error in tip position estimation of 0.13 mm and 0.58 mm, respectively, for a manipulator length of 60.55 mm.

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Actuator Fault and Link Failure Accommodation for Disturbed Multi-User Telerehabilitation Systems Subject to Communication Noise

Tariverdi

Pourafzal

Talebi

et al. 2019

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Reinforcement Learning-Based Switching Controller for a Milliscale Robot in a Constrained Environment

Tariverdi

Côté-Allard

Mathiassen

et al. 2024

IEEE Trans. Automat. Sci. Eng.

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Abbas Tariverdi

Fault-tolerant consensus of nonlinear multi-agent systems with directed link failures, communication noise and actuator faults

A Recurrent Neural-Network-Based Real-Time Dynamic Model for Soft Continuum Manipulators

Dynamic modeling of soft continuum manipulators using lie group variational integration

Actuator Fault and Link Failure Accommodation for Disturbed Multi-User Telerehabilitation Systems Subject to Communication Noise

Reinforcement Learning-Based Switching Controller for a Milliscale Robot in a Constrained Environment

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