Article | The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan | Active Elbow Joint Model
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Title:
Active Elbow Joint Model
Author:
Hyung Yun Choi: Mechanical System Design Engineering Dept., Hongik University, Korea Manyong Han: Mechanical System Design Engineering Dept., Hongik University, Korea Whe-Ro Lee: Mechanical System Design Engineering Dept., Hongik University, Korea Toru Matsui: Integrated CAE and PLM Dept., Nissan Motor Co, Ltd., Japan Hisayoshi Matsuoka: Integrated CAE and PLM Dept., Nissan Motor Co, Ltd., Japan
DOI:
10.3384/ecp1612450
Download:
Full text (pdf)
Year:
2016
Conference:
The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan
Issue:
124
Article no.:
007
Pages:
50-54
No. of pages:
5
Publication type:
Abstract and Fulltext
Published:
2016-05-18
ISBN:
978-91-7685-749-6
Series:
Linköping Electronic Conference Proceedings
ISSN (print):
1650-3686
ISSN (online):
1650-3740
Publisher:
Linköping University Electronic Press, Linköpings universitet


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Voluntary and reflexive muscle activation of human elbow joint is investigated by both subject test and numerical simulation. A jerk loading is applied to extend elbow joint with different muscle tensing and pre-recognition conditions. Inter- and Intra-subject variations of hand displacement are analyzed for an objective assessment of the active response at elbow joint to the external perturbation. Both Modelica and finite element mesh models are developed using passive kinematic joint element and active torque which has PID close loop control. The simulation result from these two models are compared with test results and shows a good correlation.

Keywords: Digital human body model, Voluntary and reflexive muscle activation

The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan

Author:
Hyung Yun Choi, Manyong Han, Whe-Ro Lee, Toru Matsui, Hisayoshi Matsuoka
Title:
Active Elbow Joint Model
DOI:
http://dx.doi.org/10.3384/ecp1612450
References:

Karin Brolin, et al. Development of an Active 6 Year Old Child Human Body Model for Simulation of Emergency Events, IRCOBI 2015.


Huaining Cheng et al. (1996) The development of the GEBOD program, Biomedical Engineering Conference, Proceedings of the 1996 Fifteenth Southern.


Hyung Yun Choi, et al, Experimental and numerical studies of muscular activations of bracing occupant, ESV 2005.


Phillip Huber, et al, Passenger kinematics in braking, lane change and oblique driving maneuvers, IRCOBI 2015.


Riske Meijer, et al. Modelling of Bracing in a Multi-Body Active Human Model, IRCOBI 2013.

The First Japanese Modelica Conferences, May 23-24, Tokyo, Japan

Author:
Hyung Yun Choi, Manyong Han, Whe-Ro Lee, Toru Matsui, Hisayoshi Matsuoka
Title:
Active Elbow Joint Model
DOI:
http://dx.doi.org/10.3384/ecp1612450
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