L-GABS: Parametric Modeling of a Generic Active Lumbar Exoskeleton for Ergonomic Impact Assessment
Manuel Pérez-Soto, Javier Marín, José J. Marín

TL;DR
This paper introduces a parametric model for an active lumbar exoskeleton to assess its ergonomic impact in work tasks.
Contribution
A novel parametric modeling approach for active lumbar exoskeletons using the Forces ergonomic method is proposed.
Findings
The model showed a chest force difference of 0.971 ± 0.171 kg compared to experimental data.
Lumbar risk differences were measured at 1.983 ± 0.678% between the model and real-world data.
Abstract
Companies increasingly implement exoskeletons in their production lines to reduce musculoskeletal disorders. Studies have been conducted on the general ergonomic effects of exoskeletons in production environments; however, it remains challenging to predict the biomechanical effects these devices may have in specific jobs. This article proposes the parametric modeling of an active lumbar exoskeleton using the Forces ergonomic method, which calculates the ergonomic risk using motion capture in the workplace, considering the internal joint forces. The exoskeleton was studied to model it in the Forces method using a four-phase approach based on experimental observations (Phase 1) and objective data collection via motion capture with inertial sensors and load cells for lifting load movements. From the experimentation the angles of each body segment, the effort perceived by the user, and the…
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Taxonomy
TopicsMusculoskeletal pain and rehabilitation · Prosthetics and Rehabilitation Robotics · Stroke Rehabilitation and Recovery
