Mathematical modeling and analysis have been an integral part of legged locomotion research for many years. While models from the very simple inverted pendulum model of walking and the spring-mass model of running to multi-segmental models with numerous muscles across each joint have been used to explore the process of legged locomotion, they are not always sufficient to explain how human locomotion adapts to a changing environment. Using techniques from dynamical and control systems, I : 1) identify the time scales involved in metabolic minimization in running, 2) explore how stability differs between walking and running, 3) develop an algorithm for optimal control in discrete physical systems, and 4) examine the changes in leg mechanics i...
The traditional view of motor control predicates that the central nervous system dictates the motion...
textWalking and running are essential tasks people take for granted every day. However, these are h...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
abstract: Humans moving in the environment must frequently change walking speed and direction to neg...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
Humans generally use two modes of locomotion as adults. At slow speeds we walk, and at fast speeds w...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
The kinematic motor redundancy of the human legs provides more local degrees of freedom than are nec...
Most research in human locomotion is limited to steady-state and constant-speed conditions. However,...
The traditional view of motor control predicates that the central nervous system dictates the motion...
textWalking and running are essential tasks people take for granted every day. However, these are h...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
abstract: Humans moving in the environment must frequently change walking speed and direction to neg...
In this two-part talk, I will first describe our human locomotion experiments and optimization calcu...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
To walk in the real world, we continually alter our gait to cope with changing terrains, goals, and ...
Humans can learn to move optimally. For many movements, we have a control strategy—or control policy...
Humans can run without falling down, usually despite uneven terrain or occasional pushes. Even witho...
Humans generally use two modes of locomotion as adults. At slow speeds we walk, and at fast speeds w...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
The kinematic motor redundancy of the human legs provides more local degrees of freedom than are nec...
Most research in human locomotion is limited to steady-state and constant-speed conditions. However,...
The traditional view of motor control predicates that the central nervous system dictates the motion...
textWalking and running are essential tasks people take for granted every day. However, these are h...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...