These series of graphs show that the significant difference observed in ankle power is due to BOTH magnitude and timing. Importance: both of these variables can affect the metabolic cost of walking https://t.co/Ef6Nor3adN (5/n)
The purpose of this study was to test the effects of different assistance timing and power characteristics in an experiment with a tethered ankle-foot exoskeleton. https://t.co/Cpvhl8DBd3
Reducing the metabolic cost of walking with an ankle exoskeleton : interaction between actuat... https://t.co/PAj5UBZev4 #GE25
RT @StevenHCollins: Strong interaction between ankle exoskeleton timing and power: Galle et al. (2017) JNER https://t.co/vVwsf7s80K https:/…
RT @StevenHCollins: Strong interaction between ankle exoskeleton timing and power: Galle et al. (2017) JNER https://t.co/vVwsf7s80K https:/…
Strong interaction between ankle exoskeleton timing and power: Galle et al. (2017) JNER https://t.co/vVwsf7s80K https://t.co/3VArk7nXlb
Reducing the metabolic cost of walking with an ankle exoskeleton: interaction between actuati... https://t.co/3GVZ1JuKUU #GE25
RT @BioMoC_UGent: New research of our "Exo-team": reducing the metabolic cost of walking is a matter of timing and power: https://t.co/E0wT…
RT @BioMoC_UGent: New research of our "Exo-team": reducing the metabolic cost of walking is a matter of timing and power: https://t.co/E0wT…
RT @BioMoC_UGent: New research of our "Exo-team": reducing the metabolic cost of walking is a matter of timing and power: https://t.co/E0wT…
New research of our "Exo-team": reducing the metabolic cost of walking is a matter of timing and power: https://t.co/E0wTtSpGFU