<div><p>Humans employ a high degree of redundancy in joint actuation, with different combinations of muscle and tendon action providing the same net joint torque. Both the resolution of these redundancies and the energetics of such systems depend on the dynamic properties of muscles and tendons, particularly their force-length relations. Current walking models that use stock parameters when simulating muscle-tendon dynamics tend to significantly overestimate metabolic consumption, perhaps because they do not adequately consider the role of elasticity. As an alternative, we posit that the muscle-tendon morphology of the human leg has evolved to maximize the metabolic efficiency of walking at self-selected speed. We use a data-driven approach...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Wearable robotic devices can restore and enhance mobility. There is growing interest in designing de...
Subject-specific musculoskeletal models and computational walking models in general have come a long...
Humans employ a high degree of redundancy in joint actuation, with different combinations of muscle ...
A common feature in biological neuromuscular systems is the redundancy in joint actuation. Understan...
In this paper, we study the mechanical behavior of leg muscles and tendons during human walking in o...
In this paper, we present an under-actuated model of human walking, comprising only a soleus muscle ...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
Muscles generate force to resist gravitational and inertial forces and/or to undertake work, e.g. on...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Wearable robotic devices can restore and enhance mobility. There is growing interest in designing de...
Subject-specific musculoskeletal models and computational walking models in general have come a long...
Humans employ a high degree of redundancy in joint actuation, with different combinations of muscle ...
A common feature in biological neuromuscular systems is the redundancy in joint actuation. Understan...
In this paper, we study the mechanical behavior of leg muscles and tendons during human walking in o...
In this paper, we present an under-actuated model of human walking, comprising only a soleus muscle ...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
The muscle-tendon unit (MTU) is the motor responsible for voluntary movement. Biomechanical properti...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
Muscles generate force to resist gravitational and inertial forces and/or to undertake work, e.g. on...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
In designing an artificial leg for an amputee, it is important to find those underlying principles w...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Wearable robotic devices can restore and enhance mobility. There is growing interest in designing de...
Subject-specific musculoskeletal models and computational walking models in general have come a long...