References
- Bertucci, W. M., & Rogier, S. (2012). Effects of different types of tyres and surfaces on the power output in the mountain bike field conditions: A preliminary study. Computer Methods in Biomechanics and Biomedical Engineering, 15(Suppl. 1), 234–236. doi:10.1080/10255842.2012.713605
- Bertucci, W. M., Rogier, S., & ReiserII, R. F. (2013). Evaluation of aerodynamic and rolling resistances in mountain-bike field conditions. Journal of Sports Sciences, 31(14), 1606–1613. doi:10.1080/02640414.2013.792945
- Candau, R. B., Grappe, F., Menard, M., Barbier, B., Millet, G. Y., Hoffman, M. D., … Rouillon, J. D. (1999). Simplified deceleration method for assessment of resistive forces in cycling. Medicine and Science in Sports and Exercise, 31(10), 1441–1447. doi:10.1097/00005768-199910000-00013
- Chung, R. (2012). Estimating CdA with a power meter. Retrieved from anonymous.coward.free.fr/wattage/cda/indirect-cda.pdf
- Davis, R. S. (1992). Equation for the determination of the density of moist air. Metrologia, 29(1), 67–70. doi:10.1088/0026-1394/29/1/008
- Di Prampero, P., Cortili, G., Mognoni, P., & Saibene, F. (1979). Equation of motion of a cyclist. Journal of Applied Physiology, 47(1), 201–206.
- Grappe, F., Candau, R., Barbier, B., Hoffman, M., Belli, A., & Rouillon, J.-D. (1999). Influence of tyre pressure and vertical load on coefficient of rolling resistance and simulated cycling performance. Ergonomics, 42(10), 1361–1371. doi:10.1080/001401399185009
- Hopkins, W. G. (2000). Measures of reliability in sports medicine and science. Sports Medicine, 30(1), 1–15. doi:10.2165/00007256-200030010-00001
- Impellizzeri, F. M., & Marcora, S. M. (2007). The physiology of mountain biking. Sports Medicine, 37(1), 59–71. doi:10.2165/00007256-200737010-00005
- Lim, A. C., Homestead, E. P., Edwards, A. G., Carver, T. C., Kram, R., & Byrnes, W. C. (2011). Measuring changes in aerodynamic/rolling resistances by cycle-mounted power meters. Medicine and Science in Sports and Exercise, 43(5), 853–860. doi:10.1249/MSS.0b013e3181fcb140
- Macdermid, P. W., Fink, P. W., & Stannard, S. R. (2014). Transference of 3D accelerations during cross country mountain biking. Journal of Biomechanics, 47(8), 1829–1837. doi:10.1016/j.jbiomech.2014.03.024
- Macdermid, P. W., Fink, P. W., & Stannard, S. R. (2015). The influence of tyre characteristics on measures of rolling performance during cross-country mountain biking. Journal of Sports Sciences, 33(3), 277–285. doi:10.1080/02640414.2014.942682
- Macdermid, P. W., & Stannard, S. (2012). Mechanical work and physiological responses to simulated cross country mountain bike racing. Journal of Sports Sciences, 30(14), 1491–1501. doi:10.1080/02640414.2012.711487
- Martin, J. C., Milliken, D. L., Cobb, J. E., McFadden, K. L., & Coggan, A. R. (1998). Validation of a mathematical model for road cycling power. Journal of Applied Biomechanics, 14, 276–291. doi:10.1123/jab.14.3.276
- Olds, T. S., Norton, K., & Craig, N. (1993). Mathematical model of cycling performance. Journal of Applied Physiology, 75(2), 730–737.
- Steiner, T., Müller, B., Maier, T., & Wehrlin, J. P. (2016). Performance differences when using 26- and 29-inch-wheel bikes in Swiss National Team cross-country mountain bikers. Journal of Sports Sciences, 34(15), 1438–1444. doi:10.1080/02640414.2015.1119294
- Steyn, W. J., & Warnich, J. (2014). Comparison of tyre rolling resistance for different mountain bike tyre diameters and surface conditions. South African Journal for Research in Sport, Physical Education and Recreation, 36(2), 179–193.