Add to ORKGA powered orthosis has applications ranging from assisting the elderly to augmenting astronauts. An assistive control scheme is developed that uses the force from a slave actuator to augment the force of a master actuator. This can be used to augment a closed-loop control scheme applied to the master actuator. Initially, actuator augmentation is explored both theoretically and experimentally using a simple mechanical system. The control scheme is then applied to a scale model of human lower limbs on a stationary bicycle to investigate the feasibility of a powered orthosis using pneumatic muscle actuators
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
There has been designed a device for verticalization and aiding the gait of individuals suffering fr...
In this proposal, a wearable and intelligent lower limb orthosis is proposed to combine human beings...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
The actuation system of a powered upper limb orthosis is studied in the work. To create natural safe...
Abstract: Many patients with spinal injures are confined to wheelchairs, leading to a sedentary life...
Mechatronics is nowadays a dominating concept in design of various kinds of systems and technical de...
Rehabilitation robots are designed to help patients improve their recovery from injury by supporting...
Starting from the early research in the 1960s, especially in the last two decades, orthoses and exos...
A number of passive orthoses have been developed to provide gait assistance and rehabilitation for i...
Ageing of society and the consequent need to develop assistive devices able to improve the quality o...
It is a general assumption that pneumatic muscle-type actuators will play an important role in the d...
A spinal cord injury severely reduces the quality of life of affected people. Following the injury, ...
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
There has been designed a device for verticalization and aiding the gait of individuals suffering fr...
In this proposal, a wearable and intelligent lower limb orthosis is proposed to combine human beings...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
Technological advancements have led to the development of numerous wearable robotic devices for the ...
The actuation system of a powered upper limb orthosis is studied in the work. To create natural safe...
Abstract: Many patients with spinal injures are confined to wheelchairs, leading to a sedentary life...
Mechatronics is nowadays a dominating concept in design of various kinds of systems and technical de...
Rehabilitation robots are designed to help patients improve their recovery from injury by supporting...
Starting from the early research in the 1960s, especially in the last two decades, orthoses and exos...
A number of passive orthoses have been developed to provide gait assistance and rehabilitation for i...
Ageing of society and the consequent need to develop assistive devices able to improve the quality o...
It is a general assumption that pneumatic muscle-type actuators will play an important role in the d...
A spinal cord injury severely reduces the quality of life of affected people. Following the injury, ...
This paper introduces a novel control strategy for a multi-joint lower-limb exoskeleton during groun...
There has been designed a device for verticalization and aiding the gait of individuals suffering fr...
In this proposal, a wearable and intelligent lower limb orthosis is proposed to combine human beings...