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Safety issue has become the primary concern in wheelchair mounted robotic arm applications. We introduced mechanical gravity canceller in the design to realize a light weight manipulator, which also yield the greatly simplify of manipulator dynamics. Based on the simplified dynamics, sensor based contact detection can be easily implemented to enable safety. Contact reaction schemes are also applied...
A prototype for a walking assistance apparatus for the elderly or motor palsy patients was developed, using a novel spatial parallel link mechanism. The flat steps of the apparatus move in parallel with the ground; the apparatus can support entire leg alignment (including soles) and assist; walking behavior at ankle, knee and hip joints simultaneously. By using a flexible link, constructed of stainless...
Our goal is to enhance the quality of life of patients with hemiplegia by means of an active motion support system that assists the impaired motion such as to make it as close as possible to the motion of an able bodied person. We have developed the Robot Suit HAL (Hybrid Assistive Limb) to actively support and enhance the human motor functions. The purpose of the research presented in this paper...
In robot-assisted surgery, haptic feedback is ongoing issue. The breaking of surgical suture material and the damage of tissue are avoidable with haptic feedback. This paper is proposing to add haptic feedback in the da Vinci like robot using unmodified da Vinci surgical instrument. To overcome the restriction of space and difficulty in measuring the force at the end-effector, the torque sensor-motor...
Intensive task-oriented repetitive physical therapies need be provided by individualized interaction between the patients and the rehabilitation specialists to improve hand motor performance for those survived from stroke and traumatic brain injury. The goal of this research is to develop a novel wearable device for robotic assisted hand repetitive therapy. We designed a pneumatic muscle (PM) driven...
This paper discusses the tracking algorithms and approach used to control the tracking fluoroscope system. It is a mobile platform equipped with an on-board fluoroscope system to perform real-time imaging of human joints in motion: ankles, knees and hips. In order to record the natural and uninterrupted joint motion, the person has to be able to walk freely while being followed by the robot. It requires...
A legged locomotor device for paraplegics have been attempted to improve their ADL and to prevent some complications. A stride control of the system based on the user's intension is important to coordinate the voluntary movements of the user and the assisted movements of the paralyzed legs. In this paper, we propose a human interface with a walker to control the stride length of a legged locomotor...
This paper presents progress towards the development of an anthropomorphic 16 degree of freedom, 4 degree of mobility prosthetic hand for use by transradial amputees, named SmartHand. The hand is provided with 40 proprioceptive and exteroceptive sensors in the fingers and with a customized control architecture embedded in the palm. The compact size and weight will allow its use to a wide range of...
This paper proposes a standing-up motion support system for complete paraplegic patients who cannot stand up by himself/herself due to a spinal cord injury. The standing-up motion is the first step for us to move somewhere inside and outside in our daily life. Therefore, the standing-up motion support is indispensable for patients to promote his/her independent life. The proposed support system using...
This paper proposes a data glove for a rehabilitation robot interface for the upper-extremity paralysis. The designed data glove uses seven flexible sensors to measure the flexion angles of fingers and wrist. We verified the performance of the data glove using a 3D graphic interface from we developed. From experimental results, we show the proposed data glove is feasible to sense the hand motions...
Intensive task-oriented repetitive physical therapies provided by individualized interaction between the patient and a rehabilitation specialist can improve hand motor performance in patients survived from stroke and traumatic brain injury. However, the therapy process is long and expensive and difficult to evaluate quantitatively and objectively. The goal of this research is to develop a novel wearable...
This paper presents the design of a flexible, embedded control architecture for the action and perception of an anthropomorphic 16 degree of freedom, 4 degree of actuation prosthetic hand for use by transradial amputees. The prosthetic hand is provided with 40 structurally integrated sensors useful both for automatic grasp control and for biofeedback delivery to the user through an appropriate interface...
In order to offer a method for the rehabilitation of injured fingers and a means of quantitative detection and evaluation, an exoskeleton based continuous passive motion (CPM) machine is presented in this paper. Corresponding to each finger of human hand, the CPM machine has 4 degrees of freedom (DOF) driven by two DC motors. The joint force and position sensors are all integrated into the machine...
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