Add to ORKGA passive exoskeleton was designed with the goal of reducing metabolic cost of human walking by augmenting moments around the hip joint. A novel approach, using leaf springs parallel to the human leg, was proposed. A kinematic model including man-machine interface compliance was optimized and results showed a maximal reduction of metabolic cost of 60%. A prototype was built and included a pelvic part, vertically fixing the leaf springs, and a thigh part, accommodating four degrees of freedom. The performance of the prototype was experimentally evaluated in treadmill trials. Muscle activity, metabolic energy and whole-body kinematics and kinetics were measured during normal walking, walking with the exoskeleton with and without springs. Walk...
Background: Many soldiers are expected to carry heavy loads over extended distances, often resulting...
Abstract Background Load carriage is common in a wide range of professions, but prolonged load carri...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...
In this study a model was introduced which simulates the effects of passive walking support on the h...
Biomechanical experiments suggest that it may be possible to build a leg exoskeleton to reduce the m...
How to improve the walking efficiency while ensuring the wearability is an important issue of lower ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
An important consideration in the design of a practical system to restore walking in individuals wit...
Even though walking can be sustained for great distances, considerable energy is required for planta...
Ever since human ancestors picked up rocks and used them as tools, technology has enhanced human cap...
Humans conserve energy during walking using an inverted pendulum mechanism during single-limb suppor...
With the aging of the population, the decline of human body function leads to the decline of limb fl...
This study proposed and developed an underactuated exoskeleton to support external load-carrying and...
Robotic exoskeletons can assist plantarflexion by means of pneumatic actuators. Most experiments mak...
© 2018 Int. J. Mech. Eng. Rob. Res. Reducing metabolic cost of walking has long been a challenge fo...
Background: Many soldiers are expected to carry heavy loads over extended distances, often resulting...
Abstract Background Load carriage is common in a wide range of professions, but prolonged load carri...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...
In this study a model was introduced which simulates the effects of passive walking support on the h...
Biomechanical experiments suggest that it may be possible to build a leg exoskeleton to reduce the m...
How to improve the walking efficiency while ensuring the wearability is an important issue of lower ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
An important consideration in the design of a practical system to restore walking in individuals wit...
Even though walking can be sustained for great distances, considerable energy is required for planta...
Ever since human ancestors picked up rocks and used them as tools, technology has enhanced human cap...
Humans conserve energy during walking using an inverted pendulum mechanism during single-limb suppor...
With the aging of the population, the decline of human body function leads to the decline of limb fl...
This study proposed and developed an underactuated exoskeleton to support external load-carrying and...
Robotic exoskeletons can assist plantarflexion by means of pneumatic actuators. Most experiments mak...
© 2018 Int. J. Mech. Eng. Rob. Res. Reducing metabolic cost of walking has long been a challenge fo...
Background: Many soldiers are expected to carry heavy loads over extended distances, often resulting...
Abstract Background Load carriage is common in a wide range of professions, but prolonged load carri...
The paper describes conceptual design, control strategies, and partial simulation for a new fully au...