International journal of advanced smart convergence

The Institute of Internet, Broadcasting and Communication (한국인터넷방송통신학회)
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Study of runout-motion in body physical techniques: physical index and sensory index

  • Kim, Jeong-lae (Department of Biomedical Engineering, Eulji University) ;
  • Shin, Kyu-ok (Department of Beauty & Cosmetic Science, Eulji University)
  • Received : 2016.08.08
  • Accepted : 2016.09.02
  • Published : 2016.09.30
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Abstract

Body physical technique is to pursuit the dynamic motion by the physical index(PI) and sensory index(SI) on the physical body function. Function of the physical body by the motor condition is organized the dynamic physical system. For the physical motion of signal, we is defined a runout value of the body function by the physical index on the dynamic state. The concept of body physical index was identified the reference of physical index and sensory index by the body technique. As to detect a variation of the body physical technique-runout physical index(BPT-RPI) of the maximum and average and minimum in terms of physical motion, and the dynamic sensory value that was a runout function of the vision variation of the $Vi-{\xi}_{MAX-AVG-MIN}$ with $2.53{\pm}4.85$ units, that was a runout function of the vestibular variation of the $Ve-{\xi}_{MAX-AVG-MIN}$ with ($-0.69{\pm}2.32$)units, that was a runout function of the somatosensory variation of the $So-{\xi}_{MAX-AVG-MIN}$ with ($-1.43{\pm}-1.36$) units. The dynamic physical motion will be to confirm at the variable function of the runout motion for the body function values of dynamic physical index on the BPT-RPI that was identified an evaluation of the physical sensory function by the dynamic physical system. Runout body system was mentioned of a physical body situation by the mild moving and was refer a runout data of dynamic physical nervous index.

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References

  1. Kusoffsky A., Apel I., Hirschfeld H., "Reaching-lifting-placing task during standing after stroke: Coordination among ground forces, ankle muscle activity, and hand movement." Archives of Physical Medicine and Rehabilitation, Vol.82, No.5, pp.650-60, 2001 May; https://doi.org/10.1053/apmr.2001.22611
  2. Sandy McCombe Waller, Michelle G., "Prettyman, Arm training in standing also improves postural control in participants with chronic stroke." Gait & Posture, Vol.36, pp.419-424, 2012. https://doi.org/10.1016/j.gaitpost.2012.03.025
  3. Nashner, L., McCollum, G., "The organization of postural movements: a formal basis and experimental synthesis." Behavioral and Brain Sciences, Vol.26, pp.135-172, 1985.
  4. He, J., Levine, W., Loeb, G., "Feedback gains for correcting small perturbations to standing posture." IEEE Transaction on Automatic Control, Vol.36, pp.322-332, 1991. https://doi.org/10.1109/9.73565
  5. P.X. Ku, N.A. AbuOsman, A.Yusof, W.A.B.Wan Abas, "Biomechanical evaluation of the relationship between postural control and body mass index." Journal of Biomechanics, Vol.45, pp.1638-1642, 2012. https://doi.org/10.1016/j.jbiomech.2012.03.029
  6. B.L. Arnold, R.J. Schmitz, "Intertester and intratester reliability of the biodex stability system." Journal of Sport Rehabilitation, Vol.7, pp.95-101, 1998b. https://doi.org/10.1123/jsr.7.2.95
  7. Kim, J.L., Kwon Y.M., "Implementation of Algorithm for home network during a bio-sensor system activities." The Journal of IIBC, Vol.10, No.5, pp.31-37, 2010.
  8. Kim, J.L., Hwang, K.S., Nam, Y.S., "Assessment of the Posture Function by Head Movement." The Journal of IIBC, Vol.14, No.5, pp.131-135, 2014.
  9. Kim, J.L., Hwang, K.S., Study of quake wavelength of dynamic movement with posture, International Journal of Advanced Smart Convergence, Vol.4, No.1, pp.99-103, 2015. https://doi.org/10.7236/IJASC.2015.4.1.99