Researchers have shown that gait training using robotic exoskeletons improved motor function in adolescents and young adults with acquired brain injury.
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The following seven robotic systems are either currently being deployed or developed for the fight against the coronavirus.
Exoskeletal-assisted walking is safe, feasible, and effective in individuals disabled by spinal cord injury.
BrainGate researchers demonstrated the first human use of a wireless transmitter capable of delivering high-bandwidth neural signals.
Dr Jan Stallkamp, Professor for Automation in Healthcare and Biotechnology, has a vision: robots that can treat patients more efficiently and more precisely than any human physician.
Researchers have demonstrated that high-dose therapy gait training using robotic exoskeletons may aid early rehabilitation for acute stroke.
Designers who use ethics to shape better companion robots will end up making better humans, too, say UNSW researchers.
Researchers have developed a robotic exoskeleton that improves the lives of people with limited or no ability to move due to neurological and/or physiological disorders.
Researchers have published the results of a trial of the ReWalk ReStore soft robotic exosuit for gait training in individuals undergoing post-stroke rehabilitation.
One of the crucial future technologies in surgery is Augmented Reality. Most experts agree that AR will increase safety and efficiency, improve surgical training and decrease costs.
A deep learning powered single-strained electronic skin sensor can capture human motion from a distance.
Radiologists are investigating people's medical conditions and pregnancies remotely thanks to an ESA-backed robotic technology.
A robotic testing platform developed in just nine days by dementia researchers could substantially increase the UK’s capacity to test people for coronavirus.
Researchers have developed a gynecological surgical assistance robot for uterine operations.
Engineers have developed a robotic device that can be used to assist and train people with SCIs to sit more stably by improving their trunk control.
A new line of wearable robotics - a lightweight version of the armor that comic hero Iron Man wears - could keep seniors on their feet longer.
A trial using 4G LTE cellular connectivity to enable drones to deliver automated external defibrillators to the scene of a cardiac arrest has taken place in Canada.
A 4-limb robotic system controlled by brain signals helped a tetraplegic man to move his arms and walk using a ceiling-mounted harness for balance.
A comfortable brace incorporates both sensors and actuators to restore roughly 70% of the active range of motion.
Robotic device acts as a cane-like mobile assistant to provide light-touch to help the elderly and others with impaired mobility.
The Open-Source Bionic Leg will enable investigators to efficiently solve challenges associated with controlling bionic legs across a range of activities in the lab and out in the community.
An interface system that uses augmented reality technology could help individuals with profound motor impairments operate a humanoid robot to feed themselves.
Scientists have developed a soft wearable hand robot that can aid the hand-disabled by using machine learning algorithm and sensory hardware.
The Hong Kong Polytechnic University (PolyU) recently developed a robotic arm to facilitate self-help and upper-limb mobile rehabilitation for stroke patients.
Researchers have developed a worldwide pioneering robotic exoskeleton which, attached to a robotic wheelchair, helps people with varying degrees of disability carry out daily activities on their own.
University of Texas at Arlington patents headset that allows persons to point to objects of interest using their eyes.