Add to ORKGThe project OrthoJacket (OrthoJacket=orthosis jacket) aims at the development of a modular, active orthosis as a portable system for the upper extremity for high tetraplegic spinal cord injured (SCI). The system combines joint stabilisation, external power from flexible fluidic actuators (FFA) with inherent compliance, a grasping function, realised by functional electrical stimulation (FES) and a natural control system that allows the tetraplegic user to regain independence. This article introduces the modular hybrid neuroorthosis OrthoJacket
ii Wearable robotics for assistance and rehabilitation are not yet considered commercially mainstrea...
Such modern social issues as demographic ageing and relevance of living conditions enhancement, alon...
The purpose of this study was to evaluate the feasibility to develop a new hybrid orthosis called &q...
In response to the need for a sophisticated powered upper-limb orthosis for use by people with disab...
Generally, quadriplegic individuals have difficulties performing object manipulation. Toward satisfa...
International audienceStroke can lead to upper limb impairments. However, due to the brain's neuropl...
In this paper a novel design of an actively powered arm orthotics is discussed. A light and effectiv...
Abstract Introduction The expansion of assistive technologies has been increasing significantly, i...
Worldwide 12.6 million people live with moderate to severe disability following a stroke, and the nu...
This paper addresses the mechanical design and control of a new active stance-control knee-ankle-foo...
The objective of this research project work is to develop an efficient and simple control strategy ...
ARAUJO, Márcio V. ; ALSINA, Pablo J. ; MEDEIROS, Adelardo A. D. ; PEREIRA, Jonathan P.P. ; DOMINGOS,...
The paper deals with the mechanical design of a new active stance-control knee-ankle-foot orthosis ...
Current orthoses were developed ultimately to enhance function of people disabled by injury to the l...
One of the most devastating effects of tetraplegia is the inability to grasp and manipulate everyday...
ii Wearable robotics for assistance and rehabilitation are not yet considered commercially mainstrea...
Such modern social issues as demographic ageing and relevance of living conditions enhancement, alon...
The purpose of this study was to evaluate the feasibility to develop a new hybrid orthosis called &q...
In response to the need for a sophisticated powered upper-limb orthosis for use by people with disab...
Generally, quadriplegic individuals have difficulties performing object manipulation. Toward satisfa...
International audienceStroke can lead to upper limb impairments. However, due to the brain's neuropl...
In this paper a novel design of an actively powered arm orthotics is discussed. A light and effectiv...
Abstract Introduction The expansion of assistive technologies has been increasing significantly, i...
Worldwide 12.6 million people live with moderate to severe disability following a stroke, and the nu...
This paper addresses the mechanical design and control of a new active stance-control knee-ankle-foo...
The objective of this research project work is to develop an efficient and simple control strategy ...
ARAUJO, Márcio V. ; ALSINA, Pablo J. ; MEDEIROS, Adelardo A. D. ; PEREIRA, Jonathan P.P. ; DOMINGOS,...
The paper deals with the mechanical design of a new active stance-control knee-ankle-foot orthosis ...
Current orthoses were developed ultimately to enhance function of people disabled by injury to the l...
One of the most devastating effects of tetraplegia is the inability to grasp and manipulate everyday...
ii Wearable robotics for assistance and rehabilitation are not yet considered commercially mainstrea...
Such modern social issues as demographic ageing and relevance of living conditions enhancement, alon...
The purpose of this study was to evaluate the feasibility to develop a new hybrid orthosis called &q...