Real-Time Muscle-Level Haptic Feedback for Enhanced Welding Learning: An sEMG-Based Approach

Real-Time Muscle-Level Haptic Feedback for Enhanced Welding Learning: An sEMG-Based Approach

AbstractEngaging muscle groups in proper order is an essential skill for human motor tasks such as welding, contributing to musculoskeletal health and task performance. However, learning the correct muscle engagement strategy for a dedicated human motion task like welding can be challenging due to t...

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Bibliographic Details
Published in:Journal of construction engineering and management Vol. 150; no. 12
Main Authors: Ye, Yang, You, Hengxu, Du, Jing
Format: Journal Article
Language:English
Published: New York American Society of Civil Engineers 01-12-2024
Subjects:
Control systems
Effectiveness
Electromyography
Feedback
Haptics
Human motion
Human performance
Learning
Muscles
Real time
Systems design
Technical Papers
Training
Welding
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Summary:AbstractEngaging muscle groups in proper order is an essential skill for human motor tasks such as welding, contributing to musculoskeletal health and task performance. However, learning the correct muscle engagement strategy for a dedicated human motion task like welding can be challenging due to the difficulty of acquiring the implicit information and carrying it over to novice trainees, which is becoming the bottleneck of workforce training. This paper proposes to monitor and model the implicit muscle engagement strategies using surface electromyographic (sEMG) sensors and provide real-time feedback to novice trainees via vibrotactile devices according to the muscle engagement models. The differences between expert trainers’ and novice trainees’ muscle engagement strategies are processed to control the vibrotactile patterns and magnitudes. A human-subject experiment (N=25) was performed to validate the system design in welding training. Our results, which demonstrated the effectiveness of the proposed method in capturing motor control patterns and improving motor skill learning, provide a strong foundation for its application in real-world training scenarios. Furthermore, it was found that providing haptic feedback according to muscle engagement was more effective than visual feedback, especially in force control. It was also noticed that haptic feedback could alleviate the reliance on external feedback compared with visual feedback. This paper presented a novel method and its implementation for welding training, contributing to innovative training methods for the workforce and beyond.
ISSN:0733-9364
1943-7862
DOI:10.1061/JCEMD4.COENG-15475