Pulling force prediction using neural networks

Pulling force prediction using neural networks

Purpose. In ergonomics and human factors investigations, pulling force (PF) estimation has usually been achieved using various types of biomechanical models, and independent approximation of PF was done with the help of upper extremity joints. Recently, multiple regression methods have gained import...

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Bibliographic Details
Published in:International journal of occupational safety and ergonomics Vol. 25; no. 2; pp. 194 - 199
Main Authors: Jain, Rahul, Meena, Makkhan Lal, Sain, Manoj Kumar, Dangayach, Govind Sharan
Format: Journal Article
Language:English
Published: England Taylor & Francis 03-04-2019
Subjects:
handle height
industrial ergonomics
manual handling
neural network
pulling force
pulling force
handle height
manual handling
neural network
industrial ergonomics
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Summary:Purpose. In ergonomics and human factors investigations, pulling force (PF) estimation has usually been achieved using various types of biomechanical models, and independent approximation of PF was done with the help of upper extremity joints. Recently, multiple regression methods have gained importance for task-relevant inputs in predicting PF. Artificial neural networks (ANNs) also play a vital role in fitting the data; however, their use in work-related biomechanics and ergonomics is inadequate. Therefore, the current research aimed to accomplish comparative investigation of ANN and regression models by assessing their capacity to predict PF values. Methods. Multipositional PF data were acquired from 200 subjects at three different handle heights and body locations. ANN and regression models were formed using a random sample of three subsets (75% training, 15% selection, 10% validation) for proving the outcomes. Results. The comparison of ANN and regression models shows that the predictions of ANN models had a profoundly explained variance and lower root mean square difference values for the PF data at three handle heights. Conclusions. These outcomes advise that ANNs offer a precise and robust substitute for regression methods, and should be considered a useful method in biomechanics and ergonomics task assessments.
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ISSN:1080-3548
2376-9130
DOI:10.1080/10803548.2018.1443899