REFERENCES
- AckermannMvan den BogertAJ. 2012. Predictive simulation of gait at low gravity reveals skipping as the preferred locomotion strategy. J Biomech.45:1293–1298.
- DonelanJMKramR. 1997. The effect of reduced gravity on the kinematics of human walking: a test of the dynamic similarity hypothesis for locomotion. J Exp Biol.200:3193–3201.
- GrabowskiAM. 2010. Metabolic and biomechanical effects of velocity and weight support using a lower-body positive pressure device during walking. Arch Phys Med Rehabil.91:951–957.
- HaupenthalAFontanaHRuschelCSantosDRoeslerH. 2012. Ground reaction forces in shallow water running are affected by immersion level, running speed and gender. J Sci Med Sport. forthcoming.
- IvanenkoYPGrassoRMacellariVLacquanitiF. 2002. Control of foot trajectory in human locomotion: role of ground Contact forces in simulated reduced gravity. J Neurophysiol.87:3070–3089.
- MinettiAEPaveiGBiancardiCM. 2012. The energetics and mechanics of level and gradient skipping: preliminary results for a potential gait of choice in low gravity environments. Planet Space Sci.74:142–145.