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An application of CaTraSys, a cable-based parallel measuring system for an experimental characterization of human walking

Published online by Cambridge University Press:  15 May 2009

Erika Ottaviano
Affiliation:
Laboratory of Robotics and Mechatronics, DiMSAT – University of Cassino, Via Di Biasio, 43 – 03043 Cassino (FR), Italy
Marco Ceccarelli*
Affiliation:
Laboratory of Robotics and Mechatronics, DiMSAT – University of Cassino, Via Di Biasio, 43 – 03043 Cassino (FR), Italy
Francesco Palmucci
Affiliation:
Laboratory of Robotics and Mechatronics, DiMSAT – University of Cassino, Via Di Biasio, 43 – 03043 Cassino (FR), Italy
*
*Corresponding author. E-mail: [email protected]

Summary

In this paper, an application is presented of a cable-based parallel manipulator as measuring system for an experimental identification of human walking characteristics. Experimental results have been obtained by means of a new version of CaTraSys (Cassino Tracking System), which is a measuring system that has been designed and built at Laboratory of Robotics and Mechatronics (LARM) in Cassino, Italy. The new version of the CaTraSys system has been used to determine the trajectory of the human limb extremity during walking operation and furthermore the system is able to measure forces that are exerted by a limb. Experimental determination of articulation mobility is also presented with numerical and experimental results.

Type
Article
Copyright
Copyright © Cambridge University Press 2009

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References

1.Adrian, M. and Cooper, J., Biomechanics of Human Movement, 2nd ed. (Brown and Benchmark Ed., Dubuque, 1995).Google Scholar
2.Nilsson, J., Thorstensson, A. and Halbertsma, J., “Changes in leg movements and muscle activity with speed of locomotion and mode of progression in humans,” Acta Physiol Scand. 123 (4), 457475 (1985).CrossRefGoogle ScholarPubMed
3.Qualisys Motion Capture System webpage, http://www.qualisys.com/, 2009.Google Scholar
4.Ceccarelli, M., Toti, M. E. and Ottaviano, E., “CATRASYS (Cassino Tracking System): A New Measuring System for Workspace Evaluation of Robots,” Eighth International Workshop on Robotics in Alpe-Adria-Danube Region RAAD'99, Munich, Germany (1999) pp. 1924.Google Scholar
5.Ottaviano, E., Ceccarelli, M., Toti, M. and Carrasco, C. Avila, “CaTraSys (Cassino Tracking System): A wire system for experimental evaluation of robot workspace,” J. Robot. Mechatronics 14 (1), 7887 (2002).Google Scholar
6.Ceccarelli, M., Ottaviano, E. and Toti, M., “Experimental Determination of Robot Workspace by Means of CATRASYS (Cassino Tracking System),” In Thirteenth CISM-IFToMM Symposium on Theory and Practice of Robots and Manipulators (Springer-Verlag, Wien, Austria, 2000) pp. 8592.Google Scholar
7.Ceccarelli, M., Fundamentals of Mechanics of Robotic Manipulation (Kluwer, Dordrecht, The Netherlands, 2004).CrossRefGoogle Scholar
8.Ottaviano, E., Ceccarelli, M. and Palmucci, F., “Experimental Identification of Kinematic Parameters and Joint Mobility of Human Limbs,” Second Word Congress on Design and Modeling of Mechanical System, Monastir, Tunisia (2007) paper 103.Google Scholar
9.Palmucci, F., Ottaviano, E. and Ceccarelli, M., “An Application of CaTraSys, a Cable-Based Parallel Measuring System for a Kinetostatic Analysis of Human Walking,” Proceedings of MUSME 2008, the International Symposium on Multibody Systems and Mechatronics, San Juan, Puerto Rico (2008) Paper No. 22-MUSME08.Google Scholar
10.Faure, F., Debunne, G., Cani-Gascuel, M. P. and Multon, F., “Dynamic analysis of human walking,” Eurographics Workshop on Computer Animation and Simulation (1997) pp. 53–66, http://citeseer.ist.psu.edu/faure97dynamic.html.CrossRefGoogle Scholar
11.Morecki, A. and Waldron, K. J., Human and Machine Locomotion (Springer, New York, 1997).CrossRefGoogle Scholar
12.Ceccarelli, M. and Ottaviano, E., “Cable-Based Parallel Manipulators for Rehabilitation Purposes of Human Limbs,” Second International Colloquium Collaborative Research Centre 562, Braunschweig, Germany (2008) pp. 5367.Google Scholar
13.Thomas, F., Ottaviano, E., Ros, L. and Ceccarelli, M., “Performance analysis of a 3-2-1 pose estimation device,” IEEE Trans. Robot. 21 (3), 2005.Google Scholar
14.Celesco Rotary and Linear Position Transducers, http://www.celesco.com/promo/spseries.html, 2009.Google Scholar