Effects of placement and orientation of body-fixed accelerometers on the assessment of energy expenditure during walking (original) (raw)
References
Antonsson, E. K., andMann, R. W. (1985): ‘The frequency content of gait,’J. Biomech.,18, pp. 39–47 Article Google Scholar
Balogun, J. A., Amusa, L. O., andOnewadume, I. U. (1988): ‘Factors affecting Caltrac and Calcount accelerometer output’,Phys. Ther.,68, pp. 1500–1504 Google Scholar
Balogun, J. A., Martin, D. A., andClendenin, M. A. (1989): ‘Calorimetric validation of the Caltrac accelerometer during level walking,’Phys. Ther.,69, pp. 501–509 Google Scholar
Bhattacharya, A., McCutcheon, E. P., Schvartz, E., andGreenleaf, J. R. (1980): ‘Body acceleration distribution and O2 uptake in humans during running and jumping,’J. Appl. Physiol.,49, pp. 881–887 Google Scholar
Bouten, C. V. C., Westerterp, K. P., Verduin, M., andJanssen, J. D. (1994): ‘Assessment of energy expenditure for physical activity using a triaxial accelerometer,’Med. Sci. Sports Exerc.,26, pp. 1516–1523 Google Scholar
Bouten, C. V. C., Koekkoek, K. T. M., Verduin, M., Kodde, L., andJanssen, J. D. (1977): ‘A triaxial accelerometer and portable data processing unit for the assessment of daily physical activity,’IEEE Trans. on Biomed. Eng. March 1997
Brouha, L. (1960): ‘Evaluation of requirements of jobs’ ‘Physiology in industry’ (Pergamon Press, Oxford) pp. 94–108 Google Scholar
Cappozzo, A. (1982): ‘Low frequency self-generated vibration during ambulation in normal men,’J. Biomech.,15, pp. 599–609 Article Google Scholar
Dempster, W. T. (1955): ‘Space requirements of the seated operator, geometrical kinematic and mechanical aspects of the body with special reference to the limbs.’ Technical Report 55-159, Wright Air Development Center, Wright Patterson Air Force Base, Ohio, USA Google Scholar
Farris, D. S. (1987): ‘Prototype development of a system providing for initial assessment of the dynamics/kinematic of bipedal motion.’Proc. 10th Ann. Conf. RESNA, San Jose, California, pp. 726–728
Haymes, E. M., andByrnes, W. C. (1993): ‘Comparison of walking and running energy cost using the Caltrac and indirect calorimetry,’Med. Sci. Sports Exerc.,25, pp. 1365–1369 Google Scholar
Heyman, M. B., Fuss, P., Young, V. R., Evans, W. J., andReberts, S. B. (1991): ‘Prediction of total energy expenditure using the Caltrac activity monitor,’Int. J. Obes.,15, (S1), p. 23 Google Scholar
Inman, V. T., Ralson, J. J., andTodd, F. (1981): ‘Human walking’ (Williams Wilkins, Baltimore) pp. 1–21 Google Scholar
Kitazaki, S., andGriffin, M. J. (1995): ‘A data correction method for the surface measurement of vibration on the body,’J. Biomech.,28, pp. 885–890 Article Google Scholar
Ladin, Z., andWu, G. (1991): ‘Combining position and acceleration measurements for joint force estimation,’J. Biomech.24, pp. 1173–1187 Article Google Scholar
Lafortune, M. A., andHennig E. M. (1991): ‘Contribution of angular motion and gravity to tibial acceleration,’Med. Sci. Sports Med.,23, pp. 360–363 Google Scholar
Laporte, R. E., Kuller, L. H., andKupfer, D. J. (1979): ‘An objective measure of physical activity for epidemiological research,’Am. J. Epidemiol.,109, pp. 158–167 Google Scholar
Laporte, R. E., Montoye, H. J., andCaspersen, C. J. (1985): ‘Assessment of physical activity in epidemiological research: problems and prospects,’Pub. Health Rep.,100, pp. 131–146 Google Scholar
Meijer, G. A. L., Westerterp, K. R., Van Hulsel, A. M. P., andTen Hoor, F. (1992): ‘Physical activity and energy expenditure in lean and obese adult human subjects,’Eur. J. Appl. Physiol.,65, pp. 525–528 Article Google Scholar
Montoye, H. J., Washburn, R., Servais, S., Ertl, A., Webster, J. G., andNagle, F. J. (1983): ‘Estimation of energy expenditure by a portable accelerometer,’Med. Sci. Sports Exerc.,15, pp. 403–407 Google Scholar
Peters, G. W. M. (1987): ‘Tools for the measurement of stress and strain fields in soft tissue.’ PhD Thesis, University of Limburg, The Netherlands Google Scholar
Redmond, D. P., andHegge, F. W. (1985): ‘Observations on the design and specification of a wrist-worn human activity monitoring system,’Behav. Res. Meth. Instr. Comp.,17, pp. 659–669 Google Scholar
Reswick, J., Perry, J., Antonelli, D., Su, N., andFreeborn, C. (1978): ‘Preliminary evaluation of the vertical acceleratin gait analyzer’ (VAGA).Proc. 6th Ann. Symp. on External Control Extremities, Dubrovnik, Yugoslavia, pp. 305–314
Servais, S. B., Webster, J. G., andMontoye, H. J. (1984): ‘Estimating human energy expenditure using an accelerometer device,’J. Clin. Eng.,9, pp. 159–170 Google Scholar
Smeathers, J. E. (1989): ‘Measurement of transmissibility for the human spine during walking and running,’Clin. Biomech.,4, pp. 34–40 Article Google Scholar
Smidt, G. L., Arora, J., andJohnston, R. C. (1971): ‘Accelerographic analysis of several types of walking,’Am. J. Phys. Med.,50, pp. 285–300 Google Scholar
Tanaka, S., Yamakoshi, K., andRolfe, P. (1994): ‘New portable instrument for long-term ambulatory monitoring of posture change using miniature electro-magnetic inclinometers,’Med. Biol. Eng. Comp.,32, pp. 357–360 Google Scholar
Washburn, R. A. andLaporte, R. e. (1988): ‘Assessment of walking behaviour: effects of speed and monitor position on two objective physical activity monitors,’Res. Q Exerc. Sports,59, pp. 83–85 Google Scholar
Waters, R. L., Morris, J., andPerry,J. (1973): ‘Translational motion of the head and trunk during normal walking,’J. Biomech.,6, pp. 167–172 Article Google Scholar
Webster, J. B., Messin, S., Mullaney, D. J., andKripke, D. F. (1982): ‘Transducer design and placment for activity recording,’Med. Biol. Eng. Comp.,20, pp. 741–744 Article Google Scholar
Weir, J. B. de (1949): ‘New methods for calculating metabolic rate with special reference to predict protein metabolism,’J. Physiol.,109, pp. 1–9 Google Scholar
Woltring, H. J. (1986): ‘A Fortran package for generalized, cross-validatory spline smoothing and differentiation,’Adv. Eng. Softw.,8, pp. 104–113 Article Google Scholar