Add to ORKGThis paper touches upon the issue of designing of an upper-limb exoskeleton used for rehabilitation. Mainly there are presented the results concerning the mechanical design. The exoskeleton, also known as orthosis, has 12 degrees of freedom (DOF). Among 12 DOF there can be distinguished 7 DOF which are actively controlled during rehabilitation, 3 passive DOF which are responsible for wrist movements, and 2 adjustable DOF used for links elongation. An orthosis has been specifically designed to accomplish requirements of medical applications. Described exoskeleton is a key-component of the upper-limb rehabilitation robot.Artykuł opisuje zagadnienia konstrukcyjne związane z projektem egzoszkieletu przeznaczonego do rehabilitacji kończyny górne...
This paper introduces a novel upper limb robotic exoskeleton designed to assist industrial operators...
The topic of this thesis is the development of a highly backdrivable exoskeleton for use in rehabili...
This paper presents a new exoskeleton design for wrist and forearm rehabilitation. The contribution ...
This paper deals with mechanical and hardware design of a robot, used for the rehabilitation of uppe...
Diseases, injuries and other pathologies can limit upper limb functions. Scientists and clinicians a...
This paper presents a novel approach to the design of a motorized rehabilitation device – active elb...
Robotic systems are being used in physiotherapy for medical purposes. Providing physical training (t...
Egzoskeleti su vrlo propulzivno područje istraživanja. Tehnologija razvijena u ovom području osim u ...
The purpose of this thesis was to create a working 3D-model of a lower extremity exoskeleton. The pr...
In the field of robot-aided neuro-rehabilitation, the “BRAVO” project aims at defining a new approac...
Abstract This paper deals with robotic exoskeletons and their using in rehabilitation of the upper l...
Introduction. Stroke has played a major role in causing patients to have limb problems and motor di...
This paper addresses a design for an exoskeleton used for human locomotion purposes in cases of peop...
none3Within the frame of BRAVO (a project that aims at the development of an advanced robotic system...
In the upper limb rehabilitation field, assisting to various patients per day, in different kinds of...
This paper introduces a novel upper limb robotic exoskeleton designed to assist industrial operators...
The topic of this thesis is the development of a highly backdrivable exoskeleton for use in rehabili...
This paper presents a new exoskeleton design for wrist and forearm rehabilitation. The contribution ...
This paper deals with mechanical and hardware design of a robot, used for the rehabilitation of uppe...
Diseases, injuries and other pathologies can limit upper limb functions. Scientists and clinicians a...
This paper presents a novel approach to the design of a motorized rehabilitation device – active elb...
Robotic systems are being used in physiotherapy for medical purposes. Providing physical training (t...
Egzoskeleti su vrlo propulzivno područje istraživanja. Tehnologija razvijena u ovom području osim u ...
The purpose of this thesis was to create a working 3D-model of a lower extremity exoskeleton. The pr...
In the field of robot-aided neuro-rehabilitation, the “BRAVO” project aims at defining a new approac...
Abstract This paper deals with robotic exoskeletons and their using in rehabilitation of the upper l...
Introduction. Stroke has played a major role in causing patients to have limb problems and motor di...
This paper addresses a design for an exoskeleton used for human locomotion purposes in cases of peop...
none3Within the frame of BRAVO (a project that aims at the development of an advanced robotic system...
In the upper limb rehabilitation field, assisting to various patients per day, in different kinds of...
This paper introduces a novel upper limb robotic exoskeleton designed to assist industrial operators...
The topic of this thesis is the development of a highly backdrivable exoskeleton for use in rehabili...
This paper presents a new exoskeleton design for wrist and forearm rehabilitation. The contribution ...