Myoelectrically Controlled Functional Electrical Stimulation (MeCFES) has proven to be a useful tool in the rehabilitation of the hemiplegic arm. This paper reports the steps involved in the development of a wearable MeCFES device (FITFES) through a user-centered design. We defined the minimal viable features and functionalities requirements for the device design from a questionnaire-based survey among physiotherapists with experience in functional electrical stimulation. The result was a necklace layout that poses minimal hindrance to task-oriented movement therapy, the context in which it is aimed to be used. FITFES is battery-powered and embeds a standard low power Bluetooth module, enabling wireless control by using PC/Mobile devices ve...
This paper presents the technological advancements in neural prosthesis devices using Functional Ele...
Author name used in this publication: Kai-Yu Tong2003-2004 > Academic research: refereed > Publicati...
A training system intended for myoelectric prosthetic hands for upper limb amputees was developed to...
We present biphasic stimulator electronics developed for a wearable functional electrical stimulatio...
Voluntary participation of hemiplegic patients is crucial for functional electrical stimulation ther...
Thousands of people currently suffer from motor limitations caused by SCI and strokes, which impose ...
This work presents the development of an electrical stimulation driver for two wearable systems: Na...
OBJECTIVE: A significant challenge in rehabilitating upper-limb amputees with sophisticated, electri...
Functional Electrical Stimulation (FES) is very useful in Stroke Rehabilitation for rebuilding muscl...
The objective of the work is to evaluate the feasibility of improving selective stimulation and redu...
International audienceImplanted functional electrical stimulation (FES) has been successfully used i...
Neuromuscular electrical stimulation finds application in several fields, from basic neurophysiology...
The constant loss of functional capacity due to aging is a serious problem that can severely worsen ...
Reaching and grasping impairments significantly affect the quality of life for people who have exper...
Reaching and grasping impairments significantly affect the quality of life for people who have exper...
This paper presents the technological advancements in neural prosthesis devices using Functional Ele...
Author name used in this publication: Kai-Yu Tong2003-2004 > Academic research: refereed > Publicati...
A training system intended for myoelectric prosthetic hands for upper limb amputees was developed to...
We present biphasic stimulator electronics developed for a wearable functional electrical stimulatio...
Voluntary participation of hemiplegic patients is crucial for functional electrical stimulation ther...
Thousands of people currently suffer from motor limitations caused by SCI and strokes, which impose ...
This work presents the development of an electrical stimulation driver for two wearable systems: Na...
OBJECTIVE: A significant challenge in rehabilitating upper-limb amputees with sophisticated, electri...
Functional Electrical Stimulation (FES) is very useful in Stroke Rehabilitation for rebuilding muscl...
The objective of the work is to evaluate the feasibility of improving selective stimulation and redu...
International audienceImplanted functional electrical stimulation (FES) has been successfully used i...
Neuromuscular electrical stimulation finds application in several fields, from basic neurophysiology...
The constant loss of functional capacity due to aging is a serious problem that can severely worsen ...
Reaching and grasping impairments significantly affect the quality of life for people who have exper...
Reaching and grasping impairments significantly affect the quality of life for people who have exper...
This paper presents the technological advancements in neural prosthesis devices using Functional Ele...
Author name used in this publication: Kai-Yu Tong2003-2004 > Academic research: refereed > Publicati...
A training system intended for myoelectric prosthetic hands for upper limb amputees was developed to...