Add to ORKGDuring locomotion, humans sometimes entrain (i.e. synchronize) their steps to external oscillations: e.g. swaying bridges, tandem walking, bouncy harnesses, vibrating treadmills, exoskeletons. Previous studies have discussed the role of nonlinear oscillators (e.g. central pattern generators) in facilitating entrainment. However, the energetics of such interactions are unknown. Given substantial evidence that humans prioritize economy during locomotion, we tested whether reduced metabolic expenditure is associated with human entrainment to vertical force oscillations, where frequency and amplitude were prescribed via a custom mechatronics system during walking. Although metabolic cost was not significantly reduced during entrainment, individ...
The control architecture underlying human reaching has been established, at least in broad outline. ...
Humans tend to value economy of locomotion, often choosing movement strategies that help minimize ho...
Learning to move in novel situations is a complex process. We need to continually learn the changing...
Abstract During locomotion, humans sometimes entrain (i.e. synchronize) their steps to external osci...
Empirical evidence suggests that parameters of human gait (e.g. step frequency, step length) tend to...
Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
SYNOPSIS. Seven subjects walked on a programmable treadmill both at constant (3.5 ±0.0 and 5.0 ±0.0 ...
SYNOPSIS. Seven subjects walked on a programmable treadmill both at constant (3.5 6 0.0 and 5.0 6 0....
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Recent research within human biomechanics has focused on variability in coordinative behavior. Using...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
NEW FINDINGS: What is the topic of this review? This narrative review explores past and recent findi...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Perhaps the most general principle underlying human movement is that people prefer to move in ways t...
The control architecture underlying human reaching has been established, at least in broad outline. ...
Humans tend to value economy of locomotion, often choosing movement strategies that help minimize ho...
Learning to move in novel situations is a complex process. We need to continually learn the changing...
Abstract During locomotion, humans sometimes entrain (i.e. synchronize) their steps to external osci...
Empirical evidence suggests that parameters of human gait (e.g. step frequency, step length) tend to...
Thesis: S.B., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
SYNOPSIS. Seven subjects walked on a programmable treadmill both at constant (3.5 ±0.0 and 5.0 ±0.0 ...
SYNOPSIS. Seven subjects walked on a programmable treadmill both at constant (3.5 6 0.0 and 5.0 6 0....
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Recent research within human biomechanics has focused on variability in coordinative behavior. Using...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
NEW FINDINGS: What is the topic of this review? This narrative review explores past and recent findi...
Features of gait are determined at multiple levels, from the selection of the gait itself (e.g., wal...
Perhaps the most general principle underlying human movement is that people prefer to move in ways t...
The control architecture underlying human reaching has been established, at least in broad outline. ...
Humans tend to value economy of locomotion, often choosing movement strategies that help minimize ho...
Learning to move in novel situations is a complex process. We need to continually learn the changing...