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The inclusion of robotic systems in physiotherapy allows developing new solutions for the rehabilitation and support of disabled people. Our research addresses the core problem for the advancement of such applications: the availability of a human machine interface offering intuitive control of robotic devices. In this paper we present an EMG-driven model of the human lower limb based on that previously...
The use of robotic assistive devices and exoskeletons to supply movement therapy for the rehabilitation of patients following variety of diseases is noticeably growing presently. In order to provide consistent therapy as well as walking assistance, we are developing a wearable lower-limb exoskeleton robot with an adaptive foot device for better walking ability and enhanced stability. In this paper,...
This paper proposes a real-time processing algorithm which estimates a subject knee moments using some joint angle data and EMGs of involved muscles. This algorithm will be essential part for the control system design of exoskeletal robotic devices. In order for this algorithm to accurately predict joint moments, it is necessary to know the one's musculo-skeletal properties, which is virtually impossible...
There are 10 to 20 millions polio survivors living around the world. Some of them cannot move their limbs by themselves. They feel inconveniences at several situations: climbing stairs; moving in a narrow space; walking. It is very difficult for polio survivors, who have permanent paralysis, to restore motor functions by using conventional rehabilitation approaches. Our aim is the assistance of motor...
Now more than ever, progresses in information technology applied to rehabilitation robotics give new hopes to people recovering from different kinds of diseases and injuries. Beside the standard application of EMG signals to analyze disabilities or to track progress in rehabilitation, more focus has been put on controlling robot arms and exoskeletons. In recent years, biomechanists have developed...
In rehabilitation system, the patient has an evolving feature on motor ability. This feature imposes an important constraint on designing of effective human-robot interaction architecture, which not only maintains training effectiveness but also ensures patient safety. In this paper, adaptive haptic interaction architecture is proposed, which utilize passive control for passive phase training and...
The paper presents an introduction of virtual reality environments to the commercial single-joint rehabilitation robot. A dynamometer has been modified to the level that enables gait goniogram based position control. The robot mimics the isolated joint movement while the subject is required to perform the task in the virtual environment. The subject generates joint torque to control the object in...
Safe actuators with controllable compliance are indispensable for assistive robots working in human environment and especially for rehabilitation devices physically interacting with patient. The paper introduces new patent pending soft fluidic actuators with rotary elastic chambers (REC), which produces rotational motion without any additional transmission elements. The key actuator features as inherent...
Power-Assist for lower-limb is expected by many physically weak persons to assist their daily activities. It is important for the power-assist robots that the assist motion is generated based on users motion intention. This paper presents a muscle-model-oriented EMG-based (electromyogram-based) control method to activate a lower-limb power-assist robot according to the users motion intention since...
Recent technological advances made necessary the use of the robots in various types of applications. Currently, the traditional robot-like scenarios dedicated to industrial applications with repetitive tasks, were replaced by applications which require human interaction. The main field of such applications concerns the rehabilitation and aid of elderly persons. In this study, we present a state-of-the-art...
Current changes in aging demographics poses new challenges: people require to keep their quality of life even after circumstances that threatened their movement and function. This increases the demand for new physical rehabilitation facilities that go beyond the traditional patient-therapist, one-to-one rehabilitation sessions. Two promising solutions rely on virtual reality and on the development...
Biarticulate muscles have been shown to perform the function of power transfer from the upper to lower leg, such as in tasks such as running, jumping, and stair climbing. A new robotic model of the human leg is described. This robotic leg transfers power from motors on the hip to the ankle. The importance of timing in maximizing the force transfer to push off at the toe is explored.
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