1. bookVolumen 8 (2014): Edición 2 (June 2014)
Detalles de la revista
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Revista
eISSN
2300-5319
Primera edición
22 Jan 2014
Calendario de la edición
4 veces al año
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Measurement Uncertainty Analysis of the Strain Gauge Based Stabilographic Platform

Publicado en línea: 15 Aug 2014
Volumen & Edición: Volumen 8 (2014) - Edición 2 (June 2014)
Páginas: 74 - 78
Detalles de la revista
Formato
Revista
eISSN
2300-5319
Primera edición
22 Jan 2014
Calendario de la edición
4 veces al año
Idiomas
Inglés

1. Baratto M., Cervera Ch., Jacono M. (2004), Analysis of Adequacy of a Force Platform for Stabilometric Clinical Investigations, Mediterranean Conference on Measurement, 207-211.Search in Google Scholar

2. Cornilleau-Peresa V., Shabanac N., Droulezd J., Gohe J.C.H., Leef G.S.M., Chew P.T.K. (2005), Measurement of the Visual Contribution to postural steadiness from the COP Movement: Methodology And Reliability, Gait & Posture, Vol. 22, 2, 96-106.Search in Google Scholar

3. Derlatka M. (2012), Human Gait Recognition Based on Signals from Two Force Plates, Lecture Notes in Computer Science, Vol. 7268: Artificial Intelligence and Soft Computing, Springer-Verlag, 251-258.Search in Google Scholar

4. Dichgans J., Mauritz K.H., Allum J.H.J., Brandt T. (1976), Postural Sway in Normals and Ataxic Patients: Analysis of the Stabilizing and Destabilizing Effects of Vision, Agressologie, 17, 15-24.Search in Google Scholar

5. Evaluation of Measurement Data - Guide to the Expression of Uncertainty in Measurement, JCGM (Joint Committee of Guides in Metrology) (2008).Search in Google Scholar

6. Gage W.H., Winter D.A., Frank J.S., Adkin A.L. (2004), Kinematic and Kinetic Validity of the Inverted Pendulum Model in Quiet Standing, Gait Posture 19, 124-132.10.1016/S0966-6362(03)00037-7Search in Google Scholar

7. Idzkowski A., Walendziuk W., (2009), Evaluation of the Static Posturograph Platform Accuracy, Journal of Vibroengineering, Vol. 11, 3, 511-516.Search in Google Scholar

8. Michalak K., Jaskowski P. (2002), Dimensional Complexity of Posturographic Signals: I. Optimization of Frequency Sampling and Recording Time, Curr Topics in Biophys, 26(2), 235-244.Search in Google Scholar

9. Nashner L.M. (1993), Computerized Dynamic Posturography in G. P. Jacobsen; C. W. Newman; and J. M. Kartush (eds.), Handbook of Balance Function Testing, Mosby-Year Book: Chicago, IL, 309-323.Search in Google Scholar

10. Soochan K., Mijoo K. Nambom K., Sungmin K., Gyucheol H., (2012), Quantification and Validity of Modified Romberg Tests Using Three-Axis Accelerometers, Green and Smart Technology with Sensor Applications, Communications in Computer and Information Science, Vol. 338, 254-261.Search in Google Scholar

11. Thurner S., Mittermaier C., Hanel R., Ehrenberger K. (2000), Scaling violation phenomena and fractality in the Human Posture Control System, Physical Review E, 62(3).10.1103/PhysRevE.62.4018Search in Google Scholar

12. Winter D.A. (1990), Biomechanics and Motor Control of Human Movement, John Wiley & Sons Inc., Toronto.Search in Google Scholar

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