International audienceThis paper presents a Functional Electro-Stimulation distributed architecture based on a wireless network, for therapeutic training of disabled patients. On this distributed architecture, the movement (of disabled members) is artificially controlled by means of a global controller which pilots a set of stimulation units. The closed loop control system we developed for controlling muscle is based on a high order sliding mode method. In such wireless network-based control, the variable delay introduced by the network must be taken into account to ensure the stability of the closed loop. Thus, in order to characterize the medium on which the control is performed, we carried out accurate measurements of the architecture pe...
Artificial limb control is an active area of research, and the control of prosthetic devices using e...
Recent technological advances in integrated circuits, wireless communications, and physiological sen...
Tutors: Antoni Ivorra Cano, Marc Tudela-Pi, Jesús Minguillón CamposTreball de fi de grau en Biomèdic...
International audienceThis paper presents a distributed Functional Electrical Stimulation architectu...
International audienceThis paper presents a wireless distributed Functional Electrical Stimulation (...
Abstract Background The control of movement in humans is hierarchical and distributed and uses feedb...
Various techniques have been developed to monitor a patient's motion for rehabilitation, but ma...
INTRODUCTION The study and the analysis of the human movements require the acquisition of kinematic...
In this brief, a network-based rehabilitation system, which takes advantage of the Internet, wireles...
This paper discusses a new approach for wireless motion control. Existing wireless techniques suffer...
In this paper, a network-based rehabilitation system is proposed to increase mobility of a rehabilit...
Our society is witnessing an unprecedented, enduring, and pervasive aging process. With more and mor...
Functional electrical stimulation (FES) is a palliative solution to improve the daily life living of...
International audience6TiSCH is a technology being standardized at the IETF which brings determinism...
Healthcare is one of the application areas of real‐time wireless communications and control. With th...
Artificial limb control is an active area of research, and the control of prosthetic devices using e...
Recent technological advances in integrated circuits, wireless communications, and physiological sen...
Tutors: Antoni Ivorra Cano, Marc Tudela-Pi, Jesús Minguillón CamposTreball de fi de grau en Biomèdic...
International audienceThis paper presents a distributed Functional Electrical Stimulation architectu...
International audienceThis paper presents a wireless distributed Functional Electrical Stimulation (...
Abstract Background The control of movement in humans is hierarchical and distributed and uses feedb...
Various techniques have been developed to monitor a patient's motion for rehabilitation, but ma...
INTRODUCTION The study and the analysis of the human movements require the acquisition of kinematic...
In this brief, a network-based rehabilitation system, which takes advantage of the Internet, wireles...
This paper discusses a new approach for wireless motion control. Existing wireless techniques suffer...
In this paper, a network-based rehabilitation system is proposed to increase mobility of a rehabilit...
Our society is witnessing an unprecedented, enduring, and pervasive aging process. With more and mor...
Functional electrical stimulation (FES) is a palliative solution to improve the daily life living of...
International audience6TiSCH is a technology being standardized at the IETF which brings determinism...
Healthcare is one of the application areas of real‐time wireless communications and control. With th...
Artificial limb control is an active area of research, and the control of prosthetic devices using e...
Recent technological advances in integrated circuits, wireless communications, and physiological sen...
Tutors: Antoni Ivorra Cano, Marc Tudela-Pi, Jesús Minguillón CamposTreball de fi de grau en Biomèdic...