Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
How human runners regulate footsteps on uneven terrain
View through CrossRef
Running stably on uneven natural terrain takes skillful control and was critical for human evolution. Even as runners circumnavigate hazardous obstacles such as steep drops, they must contend with uneven ground that is gentler but still destabilizing. We do not know how footsteps are guided based on the uneven topography of the ground and how those choices influence stability. Therefore, we studied human runners on trail-like undulating uneven terrain and measured their energetics, kinematics, ground forces, and stepping patterns. We find that runners do not selectively step on more level ground areas. Instead, the body’s mechanical response, mediated by the control of leg compliance, helps maintain stability without requiring precise regulation of footsteps. Furthermore, their overall kinematics and energy consumption on uneven terrain showed little change from flat ground. These findings may explain how runners remain stable on natural terrain while devoting attention to tasks besides guiding footsteps.
Title: How human runners regulate footsteps on uneven terrain
Description:
Running stably on uneven natural terrain takes skillful control and was critical for human evolution.
Even as runners circumnavigate hazardous obstacles such as steep drops, they must contend with uneven ground that is gentler but still destabilizing.
We do not know how footsteps are guided based on the uneven topography of the ground and how those choices influence stability.
Therefore, we studied human runners on trail-like undulating uneven terrain and measured their energetics, kinematics, ground forces, and stepping patterns.
We find that runners do not selectively step on more level ground areas.
Instead, the body’s mechanical response, mediated by the control of leg compliance, helps maintain stability without requiring precise regulation of footsteps.
Furthermore, their overall kinematics and energy consumption on uneven terrain showed little change from flat ground.
These findings may explain how runners remain stable on natural terrain while devoting attention to tasks besides guiding footsteps.
Related Results
Physiological and biomechanical factors contributing to the hip adduction angle in female runners
Physiological and biomechanical factors contributing to the hip adduction angle in female runners
Running is a popular form of exercise that is accompanied by many health benefits. However, running also comes with a risk of overuse injuries. Women have a higher risk for overuse...
How human runners regulate footsteps on uneven terrain
How human runners regulate footsteps on uneven terrain
Abstract
Running stably on uneven natural terrain takes skillful control and was critical for human evolution. Even as runners circumnavigate hazardous obstacles su...
Stratigraphic studies of Ganymede’s tectonic activity in the bright terrain: results from the Byblus Sulcus and Harpagia Sulcus regions
Stratigraphic studies of Ganymede’s tectonic activity in the bright terrain: results from the Byblus Sulcus and Harpagia Sulcus regions
The Jovian satellite Ganymede experienced a pronounced period of tectonic resurfacing forming the extended bright or light terrain the so-called Sulci, which cover about 2/3 of Gan...
Preliminary study of a new-style terrain disturbance method based on gradient inhomogeneity in convection-allowing scale ensemble prediction system
Preliminary study of a new-style terrain disturbance method based on gradient inhomogeneity in convection-allowing scale ensemble prediction system
<p>Terrain with different shapes and ground surface properties has extremely complex impacts on atmospheric motion, and the forecast uncertainty and complexity caused...
Difference of walking plantar loadings in experienced and novice long-distance runners
Difference of walking plantar loadings in experienced and novice long-distance runners
Purpose: Long-distance running has been a global popularity, and differences may be observed in runners of experience. This study was aimed to evaluate the differences in plantar l...
Preliminary study on terrain uncertainty and its perturbing scheme
Preliminary study on terrain uncertainty and its perturbing scheme
<p>1.Introduction</p><p>A key issue in developing the ensemble prediction technique is the recognition of uncertain factors in numerical f...
The Impact of Running Experience and Shoe Longitudinal Bending Stiffness on Lower Extremity Biomechanics
The Impact of Running Experience and Shoe Longitudinal Bending Stiffness on Lower Extremity Biomechanics
Purpose
The impacts of shoe stiffness on running biomechanics are well-documented, while the specific effects on the performance of biomechanically distinct groups such as nov...
Kinematic, Cardiopulmonary, and Metabolic Responses of Overweight Runners While Running at Self‐Selected and Standardized Speeds
Kinematic, Cardiopulmonary, and Metabolic Responses of Overweight Runners While Running at Self‐Selected and Standardized Speeds
AbstractObjectiveTo determine the differences in kinematic, cardiopulmonary, and metabolic responses between overweight and healthy weight runners at a self‐selected and standard r...