Add to ORKGHumans experience small fluctuations in their gait when walking on uneven terrain. The fluctuations deviate from the steady, energy-minimizing pattern for level walking, and have no obvious organization. But humans often look ahead when they walk, and could potentially plan anticipatory fluctuations for the terrain. Such planning is only sensible if it serves some an objective purpose, such as maintaining constant speed or reducing energy expenditure, that is also attainable within finite planning capacity. Here we show that humans do plan and perform optimal control strategies on uneven terrain. Rather than maintain constant speed, they make purposeful, anticipatory speed adjustments that are consistent with minimizing energy expenditure. ...
This paper presents a novel Adaptive-frequency MPC framework for bipedal locomotion over terrain wit...
Researchers have spent considerable time studying the mechanics and energy expenditure associated wi...
Few studies have calculated the relative difficulty of walking across different types of terrain (e....
Humans evolved to be endurance animals. Our ancestors were persistence hunters; they would chase ani...
Humans evolved to be endurance animals. Our ancestors were persistence hunters; they would chase ani...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
How do humans achieve such remarkable energetic efficiency when walking over complex terrain such as...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Jonathan B. Dingwell is with UT Austin, Joby John is with Pennsylvania State University, Joseph P. C...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Despite decades of evidence revealing a multitude of ways in which animals are adapted to minimize t...
This paper presents a novel Adaptive-frequency MPC framework for bipedal locomotion over terrain wit...
Researchers have spent considerable time studying the mechanics and energy expenditure associated wi...
Few studies have calculated the relative difficulty of walking across different types of terrain (e....
Humans evolved to be endurance animals. Our ancestors were persistence hunters; they would chase ani...
Humans evolved to be endurance animals. Our ancestors were persistence hunters; they would chase ani...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
How do humans achieve such remarkable energetic efficiency when walking over complex terrain such as...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Jonathan B. Dingwell is with UT Austin, Joby John is with Pennsylvania State University, Joseph P. C...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Despite decades of evidence revealing a multitude of ways in which animals are adapted to minimize t...
This paper presents a novel Adaptive-frequency MPC framework for bipedal locomotion over terrain wit...
Researchers have spent considerable time studying the mechanics and energy expenditure associated wi...
Few studies have calculated the relative difficulty of walking across different types of terrain (e....