|
American College of Sports Medicine (2000). ACSM's guidelines for exercise testing and prescription. Eds: Franklin, B. A., Whaley, M. H. and Howley, E. T. 6th edition. Baltimore: Lippincott Williams & Wilkins. 145-150.
Åstrand, P.O. and Rodhal, K. (1986) Textbook of Work Physiology. 2nd edition. McGraw-Hill, New York.
Berthoin, S. Baquet, G., Mantéca, F., Lenseil-Corbeil, G. and Gerbeaux, M. (1996) Maximal aerobic speed and running time to exhaustion for children 6 to 17 years old. Pediatric Exercise Science 8, 234-244.
Borg, G. (1990) Psychophysical scaling with applications in physical work and perception of exertion. Scandinavian Journal of Work in Environment and Health 16 (Suppl 1), 55-58.
Brage, S., Wedderkopp, N., Franks, P. W., Andersen, L-B. and Froberg, K. (2003a) Reliabity and validity of the computer science and applications accelerometer in a mechanical setting. Measurement in Physical Education and Exercise Science 77(2), 101-119.
Brage, S., Wedderkopp, N., Franks, P. W., Andersen, L-B. and Froberg, K. (2003b) Reexamination of validity and reliability of the CSA monitor in walking and running. Medicine and Science in Sports and Exercise 35, 1447-1454.
Faireweather, S.C., Reilly, J.J., Grant, S., Whittaker, A. and Paton, J.Y. (1999) Using the computer science and applications (CSA) activity monitor in preschool children. Pediatric Exercise Science 11, 413-420.
Freedson, P., Melanson, E. and Sirard, J. (1998) Calibration of the computer science and applications, Inc. accelerometer. Medicine and Science in Sports and Exercise 30, 777-781.
Gadoury, C. and Léger, L. (1986) Validity of the 20-m shuttle run test and Canadian standarized test of fitness to predict aerobic capacity of adult. Sciences et Techniques des Activités Physiques et Sportives 7, 57-68.
Gregor, R. J. and Kirkendall, D. (1978) Performance efficiency of world class female marathon runners. In: Biomechanics VI-B. Eds: Amussen, E. and Jörgensen, K. Baltimore: University Park Press. 40-45.
Hendelman, D., Miller, K., Bagget, C., Debold, E. and Freedson, P. (2000) Validity of accelerometry for the assessement of moderate intensity physical activity in the field. Medicine and Science in Sports and Exercise 32, S442-S449.
Kuipers, H., Verstappen, F.T., Keizer, H.A., Geurten, P. and van Kranenburg, G. (1985) Variability of aerobic performance in the laboratory and its physiologic correlates. International Journal of Sports Medicine 6(4), 197-201.
Kyröläinen, H., Belli, A. and Komi, P.V. (2001) Biomechanical factors affecting running economy. Medicine and Science in Sports and Exercise 33, 1330-1337.
Nichols, J.F., Morgan, C.G., Chabot, L.E., Sallis, J.F. and Calfas, K.J. (2000) Assessment of physical activity with the computer science and applications, Inc., accelerometer: Laboratory versus field validation. Research Quarterly for Exercise and Sport 71, 36-43.
Nilsson, A., Ekelund, U., Yngve, A. and Sjöström, M. (2002) Assessing physical activity among children with accelerometers using different time sampling intervals and placements. Pediatric Exercise Science 14, 75-84.
Sirard, J.R., Melanson, E.L., Li, L. and Freedson, P.S. (2000) Field evaluation of the computer science and applications, Inc. physical activity monitor. Medicine and Science in Sports and Exercise 32, 695-700.
Swartz, A.M., Strath, S.J., Bassett, D.R. Jr, O'Brien, W.L., King, G.A. and Ainsworth, B.E., (2000) Estimation of energy expenditure using CSA accelerometer at hip and wrist sites. Medicine and Science in Sports and Exercise 32, S450-S456.
Trost, S.G., Ward, D.S., Moorehead, S.M., Watson, P.D., Riner, W. and Burke, J.M.R. (1998) Validity of the computer science and applications (CSA) activity monitor in children. Medicine and Science in Sports and Exercise 30, 629-633.
Williams, K.R. and Cavanagh, P.R. (1987) Relationship between distance running mechanics, running economy, and performance. Journal of Applied Physiology 63, 1236-1245.
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