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Main Authors: Baker, Nicholas S., Long, Leroy, Srinivasan, Manoj
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.00720
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author Baker, Nicholas S.
Long, Leroy
Srinivasan, Manoj
author_facet Baker, Nicholas S.
Long, Leroy
Srinivasan, Manoj
contents Humans typically walk at low speeds and run at higher speeds. Previous studies of transitions between walking and running were mostly on treadmills, but real-world locomotion allows more flexibility. Here, we study overground locomotion over long distances (800 m or 2400 m) under time constraints, simulating everyday scenarios like going to an appointment. Unlike on treadmills, participants can vary both speed and gait during this task. We find that gait transition in this overground task occurs over a broad `gait transition regime' spanning average speeds from 1.9 m/s to 3.0 m/s. In this regime, people use mixtures of walking and running: mostly walking at low average speeds (around 1.9 m/s) and mostly running at high average speeds (3.0 m/s); the walk vs run fraction gradually changes between these speed limits. Within any walk-run mixture, there is a speed gap between the walking and running. These gait mixtures and their specific structure are predicted by energy optimality. These findings extend earlier results from much shorter distance tasks, showing that similar energetic principles govern longer, more physically and cognitively demanding tasks. Overall, our results highlight the role of whole-task energy minimization including transients in shaping human locomotion.
format Preprint
id arxiv_https___arxiv_org_abs_2501_00720
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Overground gait transitions are not sharp but involve gradually changing walk-run mixtures even over long distances
Baker, Nicholas S.
Long, Leroy
Srinivasan, Manoj
Neurons and Cognition
Humans typically walk at low speeds and run at higher speeds. Previous studies of transitions between walking and running were mostly on treadmills, but real-world locomotion allows more flexibility. Here, we study overground locomotion over long distances (800 m or 2400 m) under time constraints, simulating everyday scenarios like going to an appointment. Unlike on treadmills, participants can vary both speed and gait during this task. We find that gait transition in this overground task occurs over a broad `gait transition regime' spanning average speeds from 1.9 m/s to 3.0 m/s. In this regime, people use mixtures of walking and running: mostly walking at low average speeds (around 1.9 m/s) and mostly running at high average speeds (3.0 m/s); the walk vs run fraction gradually changes between these speed limits. Within any walk-run mixture, there is a speed gap between the walking and running. These gait mixtures and their specific structure are predicted by energy optimality. These findings extend earlier results from much shorter distance tasks, showing that similar energetic principles govern longer, more physically and cognitively demanding tasks. Overall, our results highlight the role of whole-task energy minimization including transients in shaping human locomotion.
title Overground gait transitions are not sharp but involve gradually changing walk-run mixtures even over long distances
topic Neurons and Cognition
url https://arxiv.org/abs/2501.00720