The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
AJ Channon, JP Myatt… - Journal of The Royal …, 2012 - royalsocietypublishing.org
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
[HTML][HTML] The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt… - Journal of the Royal …, 2012 - ncbi.nlm.nih.gov
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
[PDF][PDF] The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt, JW Rankin… - scienceopen.com
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
[引用][C] The human foot and heel-sole-toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt… - JOURNAL OF THE … - rvc-repository.worktribe.com
The human foot and heel-sole-toe walking strategy: a mechanism enabling an inverted
pendular gait with low isometric muscle force? Skip to main content RVC Research Online …
pendular gait with low isometric muscle force? Skip to main content RVC Research Online …
The human foot and heel-sole-toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt… - Journal of the Royal …, 2012 - europepmc.org
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt… - Journal of The Royal …, 2012 - cir.nii.ac.jp
抄録< jats: p> Mechanically, the most economical gait for slow bipedal locomotion requires
walking as an 'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression …
walking as an 'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression …
[PDF][PDF] The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt, JW Rankin… - cyberleninka.org
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
The human foot and heel-sole-toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon… - Journal of the …, 2012 - pubmed.ncbi.nlm.nih.gov
Mechanically, the most economical gait for slow bipedal locomotion requires walking as
an'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
an'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
[PDF][PDF] The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt, JW Rankin… - Citeseer
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
[HTML][HTML] The human foot and heel–sole–toe walking strategy: a mechanism enabling an inverted pendular gait with low isometric muscle force?
JR Usherwood, AJ Channon, JP Myatt… - Journal of the Royal …, 2012 - ncbi.nlm.nih.gov
Mechanically, the most economical gait for slow bipedal locomotion requires walking as an
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …
'inverted pendulum', with: I, an impulsive, energy-dissipating leg compression at the …