Add to ORKGIn this two-part talk, I will first describe our human locomotion experiments and optimization calculations, demonstrating that energy optimality can predict many aspects of humans locomotion behavior. Energy optimality not only (roughly) explains steady locomotion behavior in a straight line, but also unsteady locomotion with changing speeds, non-straight-line locomotion in complex curves, and other less conventional tasks. Next, I will describe our attempts to characterize the controller humans use to walk and run stably. To infer the controller, we use human responses to natural intrinsic noise and externally applied perturbations during walking and running. We will show that some human responses to such perturbations can also be explain...
Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
Learning to move in novel situations is a complex process. We need to continually learn the changing...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
Most research in human locomotion is limited to steady-state and constant-speed conditions. However,...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
The traditional view of motor control predicates that the central nervous system dictates the motion...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
On a treadmill, humans switch from walking to running beyond a characteristic transition speed. Here...
SummaryThe way we walk determines the energetic investment needed. Humans spontaneously alter their ...
Perhaps the most general principle underlying human movement is that people prefer to move in ways t...
Is the control of movement less stable when we walk or run in challenging settings? Intuitively, one...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Mathematical modeling and analysis have been an integral part of legged locomotion research for many...
Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
Learning to move in novel situations is a complex process. We need to continually learn the changing...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
Most research in human locomotion is limited to steady-state and constant-speed conditions. However,...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
The traditional view of motor control predicates that the central nervous system dictates the motion...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
On a treadmill, humans switch from walking to running beyond a characteristic transition speed. Here...
SummaryThe way we walk determines the energetic investment needed. Humans spontaneously alter their ...
Perhaps the most general principle underlying human movement is that people prefer to move in ways t...
Is the control of movement less stable when we walk or run in challenging settings? Intuitively, one...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Mathematical modeling and analysis have been an integral part of legged locomotion research for many...
Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
Learning to move in novel situations is a complex process. We need to continually learn the changing...
It is widely accepted that humans and animals minimize energetic cost while walking. While such prin...