Pendular energy transduction within the step in human walking GA Cavagna, PA Willems, MA Legramandi, NC Heglund Journal of Experimental Biology 205 (21), 3413-3422, 2002 | 136 | 2002 |
Old men running: mechanical work and elastic bounce GA Cavagna, MA Legramandi, LA Peyré-Tartaruga Proceedings of the Royal Society B: Biological Sciences 275 (1633), 411-418, 2008 | 92 | 2008 |
Running backwards: soft landing–hard takeoff, a less efficient rebound GA Cavagna, MA Legramandi, A La Torre Proceedings of the Royal Society B: Biological Sciences 278 (1704), 339-346, 2011 | 34 | 2011 |
The landing–take-off asymmetry of human running is enhanced in old age GA Cavagna, MA Legramandi, LA Peyre-Tartaruga Journal of Experimental Biology 211 (10), 1571-1578, 2008 | 34 | 2008 |
The bounce of the body in hopping, running and trotting: different machines with the same motor GA Cavagna, MA Legramandi Proceedings of the Royal Society B: Biological Sciences 276 (1677), 4279-4285, 2009 | 25 | 2009 |
Running humans attain optimal elastic bounce in their teens MA Legramandi, B Schepens, GA Cavagna Scientific Reports 3, 2013 | 24 | 2013 |
Running, hopping and trotting: tuning step frequency to the resonant frequency of the bouncing system favors larger animals GA Cavagna, MA Legramandi Journal of Experimental Biology 218 (20), 3276-3283, 2015 | 22 | 2015 |
An analysis of the rebound of the body in backward human running GA Cavagna, MA Legramandi, A La Torre Journal of Experimental Biology 215 (1), 75-84, 2012 | 18 | 2012 |
The phase shift between potential and kinetic energy in human walking GA Cavagna, MA Legramandi Journal of Experimental Biology 223 (21), jeb232645, 2020 | 8 | 2020 |
Still air resistance during walking and running MM Pecchiari, MA Legramandi, G Gibertini, GA Cavagna Proceedings of the Royal Society B 290 (2013), 20231763, 2023 | | 2023 |