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Abstract

Modeling of human motion is common in ergonomic analysis of industrial tasks and can help improve workplace design. We propose a method for modeling the trajectories of hand movements in the frontal plane during a sequential reach task that involves threading string through a system of pulleys. We model the motions as a combination of two consecutive phases, one where the hand is reaching between pulleys and another when the hand is engaged in threading a target pulley. Hand trajectories were modeled separately for each phase by fitting basis-splines to the observed data. Predicted trajectories were computed using task parameters as the input and compared to observed trajectories from the 12 participants who completed the study.

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References

Chaffin

D. B.

(2001). Digital human modeling for vehicle and workplace design. Warrendale, PA: Society of Automotive Engineers.

Faraway

J. J.

(2000). Modeling reach motions using functional regression analysis (No. 2000-01-2175). SAE Technical Paper.

Faraway

J. J.

Reed

M. P.

(2007). Statistics for digital human motion modeling in ergonomics. Technometrics, 49(3), 277-290.

Faraway

J. J.

Reed

M. P.

Wang

(2007). Modelling three-dimensional trajectories by using Bézier curves with application to hand motion. Journal of the Royal Statistical Society: Series C (Applied Statistics), 56(5), 571-585.

Flash

Hogan

(1985). The coordination of arm movements: an experimentally confirmed mathematical model. Journal of neuroscience, 5(7), 1688-1703.

Haney

J. M.

Owczarczak

D’Souza

Jones

M. L.

Reed

M. P.

(2016, September). A Pilot Study of the Effects of Pulley Location and Design Parameters on Hand Movements during Pulley Threading Operations. In Proceedings of the HFES Annual Meeting (Vol. 60, No. 1, pp. 908-912). Sage CA: Los Angeles, CA: SAGE Publications.

Jung

E. S.

Kee

Chung

M. K.

(1995). Upper body reach posture prediction for ergonomic evaluation models. International Journal of Industrial Ergonomics, 16(2), 95-107.

Wang

(1999). A behavior-based inverse kinematics algorithm to predict arm prehension postures for computer-aided ergonomic evaluation. Journal of biomechanics, 32(5), 453-460.

Wang

Verriest

J. P.

(1998). A geometric algorithm to predict the arm reach posture for computer-aided ergonomic evaluation. The journal of visualization and computer animation, 9(1), 33-47.

10.

Zhang

Chaffin

(2000). A three-dimensional dynamic posture prediction model for in-vehicle seated reaching movements: development and validation. Ergonomics, 43(9), 1314-1330.

Modeling Hand Trajectories during Sequential Reach Movements in a Pulley Threading Task

Abstract

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References