Rahil Mehrizi scite author profile

Lifting is a common manual material handling task performed in the workplaces. It is considered as one of the main risk factors for Work-related Musculoskeletal Disorders. To improve work place safety, it is necessary to assess musculoskeletal and biomechanical risk exposures associated with these tasks, which requires very accurate 3D pose. Existing approaches mainly utilize marker-based sensors to collect 3D information. However, these methods are usually expensive to setup, timeconsuming in process, and sensitive to the surrounding environment. In this study, we propose a multi-view based deep perceptron approach to address aforementioned limitations. Our approach consists of two modules: a "view-specific perceptron" network extracts rich information independently from the image of view, which includes both 2D shape and hierarchical texture information; while a "multi-view integration" network synthesizes information from all available views to predict accurate 3D pose. To fully evaluate our approach, we carried out comprehensive experiments to compare different variants of our design. The results prove that our approach achieves comparable performance with former marker-based methods, i.e. an average error of 14.72 ± 2.96 mm on the lifting dataset. The results are also compared with state-of-the-art methods on HumanEva-I dataset [1], which demonstrates the superior performance of our approach.

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Predicting 3-D Lower Back Joint Load in Lifting: A Deep Pose Estimation Approach

Mehrizi

Peng

Metaxas

et al. 2019

IEEE Trans. Human-Mach. Syst.

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A Deep Neural Network-based method for estimation of 3D lifting motions

Mehrizi

Peng

et al. 2019

Journal of Biomechanics

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Using a marker-less method for estimating L5/S1 moments during symmetrical lifting

Mehrizi

Zhang

et al. 2017

Applied Ergonomics

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Rahil Mehrizi

A computer vision based method for 3D posture estimation of symmetrical lifting

Toward Marker-Free 3D Pose Estimation in Lifting: A Deep Multi-View Solution

Predicting 3-D Lower Back Joint Load in Lifting: A Deep Pose Estimation Approach

A Deep Neural Network-based method for estimation of 3D lifting motions

Using a marker-less method for estimating L5/S1 moments during symmetrical lifting

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