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Fig. 3. Ankle exoskeleton mechanics. The thick lines are mean ankle joint angular
velocity (left column), exoskeleton torque (middle column) and exoskeleton
mechanical power (right column) over the stride from heel strike (0%) to heel
strike (100%) of nine subjects. Data are average of left and right legs. Each
row is walking data at 1.25 m s–1 on a single surface
gradient (0%-level at top to 15%-uphill at bottom). In each subplot, bold
lines are for unpowered (black circles), and powered (gray circles) walking,
and thin lines are +1 s.d. Stance is 
0–60% of the stride, swing
60–100%. Ankle joint angular velocity (deg. s–1) is
positive for ankle plantarflexion. Exoskeleton torque that acts to plantarflex
the ankle is positive. Torque is the product of artificial muscle load and
moment arm length and is normalized by subject mass (Nm
kg–1). Exoskeleton mechanical power is the product of
exoskeleton torque and ankle joint angular velocity and is normalized by
subject mass (W kg–1). Positive exoskeleton power indicates
transfer of energy from exoskeletons to the user's biological ankle
muscle–tendon system.
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