2021
DOI: 10.1098/rsos.201877
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Visuomotor control of leaping over a raised obstacle is sensitive to small baseline displacements

Abstract: The limb kinematics used for stepping or leaping over an obstacle are determined primarily by visual sensing of obstacle position and geometry. In this study, we demonstrate that changes are induced in limb kinematics even when obstacle geometry is manipulated in a way that does not introduce a mechanical requirement for a change of limb trajectory nor increase risk of collision. Human participants performed a running leap over a single raised obstacle bar. Kinematic changes were measured when an identical sec… Show more

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Cited by 2 publications
(1 citation statement)
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“…The ground underfoot can hence change from step to step, necessitating a cascade of adaptations to steady-state gait. Animals have evolved a set of manoeuvres for negotiating such terrain, including leaping [14], changing direction [15], stepping onto raised/lowered ground [16], elevating the swing limb [17], and locally modifying step length and step width [18][19][20][21]. The energetic implications of these manoeuvres are considerable: human gross metabolic energy expenditure when walking over challenging rocky terrain can be more than twice that of walking over level ground [22], and even small variations (up to 2.5 cm) in terrain substrate height have been shown to increase energy expenditure by over 20% [23].…”
Section: Introductionmentioning
confidence: 99%
“…The ground underfoot can hence change from step to step, necessitating a cascade of adaptations to steady-state gait. Animals have evolved a set of manoeuvres for negotiating such terrain, including leaping [14], changing direction [15], stepping onto raised/lowered ground [16], elevating the swing limb [17], and locally modifying step length and step width [18][19][20][21]. The energetic implications of these manoeuvres are considerable: human gross metabolic energy expenditure when walking over challenging rocky terrain can be more than twice that of walking over level ground [22], and even small variations (up to 2.5 cm) in terrain substrate height have been shown to increase energy expenditure by over 20% [23].…”
Section: Introductionmentioning
confidence: 99%