Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 2010.This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.Cataloged from student submitted PDF version of thesis.Includes bibliographical references (p. 91-94).Neuroscientists researching locomotion take a top-down approach by elucidating high- level cortical control circuits. In contrast, biomechanists prefer to focus on structural and mechanical aspects of the legged movement apparatus. We posit that studying interplay between neural co-ordination and legged biomechanics can yield crucial insight into (a) motor control and (b) human leg morp...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Physics-based predictive simulations of human movement have the potential to support personalized me...
A common feature in biological neuromuscular systems is the redundancy in joint actuation. Understan...
<div><p>Humans employ a high degree of redundancy in joint actuation, with different combinations of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The human nervous system stabilizes locomotion by continuously correcting for deviations away from t...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
A gait model capable of generating human-like walking behavior at both the kinematic and the muscula...
Researchers have explored a variety of neurorehabilitation approaches to restore normal walking func...
Current real-time neuromechanical model-based (NM) controllers for wearable robotics, such as exoske...
The fields of terrestrial biomechanics and bio-inspired robotics have identified spring-like limb me...
During human walking, there exists a functional neural coupling between arms and legs, and between c...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Recent effort in exoskeleton control resulted in reduction of human metabolic consumption during gro...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Physics-based predictive simulations of human movement have the potential to support personalized me...
A common feature in biological neuromuscular systems is the redundancy in joint actuation. Understan...
<div><p>Humans employ a high degree of redundancy in joint actuation, with different combinations of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The human nervous system stabilizes locomotion by continuously correcting for deviations away from t...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
A gait model capable of generating human-like walking behavior at both the kinematic and the muscula...
Researchers have explored a variety of neurorehabilitation approaches to restore normal walking func...
Current real-time neuromechanical model-based (NM) controllers for wearable robotics, such as exoske...
The fields of terrestrial biomechanics and bio-inspired robotics have identified spring-like limb me...
During human walking, there exists a functional neural coupling between arms and legs, and between c...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Recent effort in exoskeleton control resulted in reduction of human metabolic consumption during gro...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Physics-based predictive simulations of human movement have the potential to support personalized me...