Test Bench for Evaluation of a Soft Robotic Link

Overview

Journal Front Robot AI

Specialty Biomedical Engineering

Date 2021 Jan 27

PMID 33501196

Citations 2

Authors

Lisbeth Mena

Concepcion A Monje

Luis Nagua

Jorge Munoz

Carlos Balaguer

Affiliations

Soon will be listed here.

Abstract

In this paper we describe the control approaches tested in the improved version of an existing soft robotic neck with two Degrees Of Freedom (DOF), able to achieve flexion, extension, and lateral bending movements similar to those of a human neck. The design is based on a cable-driven mechanism consisting of a spring acting as a cervical spine and three servomotor actuated tendons that let the neck to reach all desired postures. The prototype was manufactured using a 3D printer. Two control approaches are proposed and tested experimentally: a motor position approach using encoder feedback and a tip position approach using Inertial Measurement Unit (IMU) feedback, both applying fractional-order controllers. The platform operation is tested for different load configurations so that the robustness of the system can be checked.

Citing Articles

Humanoid Head Camera Stabilization Using a Soft Robotic Neck and a Robust Fractional Order Controller.

Munoz J, de Santos-Rico R, Mena L, Monje C Biomimetics (Basel). 2024; 9(4).

PMID: 38667231 PMC: 11048281. DOI: 10.3390/biomimetics9040219.

The GummiArm Project: A Replicable and Variable-Stiffness Robot Arm for Experiments on Embodied AI.

Stoelen M, de Azambuja R, Lopez Rodriguez B, Bonsignorio F, Cangelosi A Front Neurorobot. 2022; 16:836772.

PMID: 35360828 PMC: 8963345. DOI: 10.3389/fnbot.2022.836772.

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