Add to ORKGabstract: Advancements in the field of design and control of lower extremity robotics requires a comprehensive understanding of the underlying mechanics of the human ankle. The ankle joint acts as an essential interface between the neuromuscular system of the body and the physical world, especially during locomotion. This paper investigates how the modulation of ankle stiffness is altered throughout the stance phase of the gait cycle depending on the environment the ankle is interacting with. Ten young healthy subjects with no neurological impairments or history of ankle injury were tested by walking over a robotic platform which collected torque and position data. The platform performed a perturbation on the ankle at 20%, 40%, and 60% of t...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
Examination of how the ankle and midtarsal joints modulate stiffness in response to increased force ...
Humans can regulate ankle moment and stiffness to cope with various surfaces during walking, while t...
The ankle structures play a key role in body support, forward propulsion and leg swing. One importan...
abstract: This study presents quantification of ankle stability as affected by environmental conditi...
<div><p>Characterizing the quasi-stiffness and work of lower extremity joints is critical for evalua...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2002.Includes...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
This article compares the three-dimensional angles of the ankle during step turn and straight walkin...
Ankle stiffness contributes to standing balance, counteracting the destabilizing effect of gravity. ...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
BACKGROUND AND AIM: To ensure upright balance the ankle joint stiffness must be sufficient to resist...
Background In stroke and multiple sclerosis patients, gait is frequently hampered by a reduced abili...
When standing, intrinsic ankle stiffness is smaller when measured using large perturbations, when sw...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
Examination of how the ankle and midtarsal joints modulate stiffness in response to increased force ...
Humans can regulate ankle moment and stiffness to cope with various surfaces during walking, while t...
The ankle structures play a key role in body support, forward propulsion and leg swing. One importan...
abstract: This study presents quantification of ankle stability as affected by environmental conditi...
<div><p>Characterizing the quasi-stiffness and work of lower extremity joints is critical for evalua...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2002.Includes...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
This article compares the three-dimensional angles of the ankle during step turn and straight walkin...
Ankle stiffness contributes to standing balance, counteracting the destabilizing effect of gravity. ...
An important goal in the design of next-generation exoskeletons and limb prostheses is to replicate ...
BACKGROUND AND AIM: To ensure upright balance the ankle joint stiffness must be sufficient to resist...
Background In stroke and multiple sclerosis patients, gait is frequently hampered by a reduced abili...
When standing, intrinsic ankle stiffness is smaller when measured using large perturbations, when sw...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
During quiet standing the human ‘inverted pendulum’ sways irregularly. In previous work where subjec...
Examination of how the ankle and midtarsal joints modulate stiffness in response to increased force ...