Voice Controlled Upper Body Exoskeleton: A Development For Industrial Application

TL;DR

This paper introduces a voice-controlled upper body exoskeleton designed for industrial use, aiming to reduce fatigue and increase lifting capacity by up to 20kg, with design details and prototype results.

Contribution

It presents the design, calculations, and initial prototype of a voice-controlled exoskeleton tailored for industrial applications, a novel integration of voice control with wearable assistive technology.

Findings

Prototype demonstrates increased lifting capacity

Design reduces arm and shoulder stress

Load analysis confirms structural feasibility

Abstract

An exoskeleton is a wearable electromechanical structure that is intended to resemble and allow movements in a manner similar to the human skeletal system. They can be used by both disabled and able people alike to increase physical strength in carrying out tasks that would be otherwise difficult, or as a rehabilitation device to aid in physiotherapeutic activities of a weakened body part. This paper intends to introduce a voicecontrolled upper body exoskeleton for industrial applications which can aid workers wearing it by reducing stresses on their arms and shoulders over longer periods and add up to 20kg more strength in lifting applications. The 3D design, calculations and considerations, and load analysis are presented along with brief results of a basic prototype model of the exoskeleton.