exoskeleton

Photograph: Florian Haufe
A wearable textile exomuscle that serves as an extra layer of muscles
Photograph: Florian Haufe A wearable textile exomuscle that serves as an extra layer of muscles
Leo Medrano, a PhD student in the Neurobionics Lab at the University of Michigan, tests out an ankle exoskeleton on a two-track treadmill. By allowing the user to directly manipulate the exoskeleton’s settings while testing it on a treadmill, preferences that are difficult to detect or measure, such as comfort, could be accounted for by the users themselves. Image credit: University of Michigan Robotics Institute
Exoskeletons move forward smoothly with personalize-your-own settings
Leo Medrano, a PhD student in the Neurobionics Lab at the University of Michigan, tests
Exoskeleton Robot and our control approach. (a) Developed carbon frame exoskeleton robot. (b) Proposed selective assist strategy. In our approach, assistive policy is selected among candidate daily motions by using an EMG-based movement classification method constructed in a positive-unlabeled (PU)-learning framework and assists user’s motion with a newly developed lightweight exoskeleton robot. Credit: IEEE Robotics and Automation Letters (2022). DOI: 10.1109/LRA.2022.3148799
An exoskeleton that effectively guesses the intentions of the user could help people with mobility impairments
Exoskeleton Robot and our control approach. (a) Developed carbon frame exoskeleton robot. (b) Proposed selective
The science of walking is taking its next big step with the aid of a unique exoskeleton
via Queen's University The science of walking is taking its next big step with the
Ankle exoskeletons can greatly increase walking speed
Engineers at Stanford University have tested how well a prototype exoskeleton system they have developed
Self-walking robotic exoskeletons combine AI and wearable cameras to think and make control decisions on their own
via University of Waterloo Self-walking robotic exoskeletons combine AI and wearable cameras to think and
Taking the fusion of robotics and neuroscience to the next level
Gordon Cheng, Professor for Cognitive Systems, wants to dig deeper in understanding how the brain
Exoskeleton training is safe, feasible, and effective for people with mobility deficits caused by traumatic spinal cord injury
via Kessler Foundation Exoskeleton training is safe, feasible, and effective for people with mobility deficits
A portable exosuit assists both walking and running

A versatile, portable exosuit that assists both walking and running highlights the potential for lightweight

First inexpensive ankle exoskeleton that could be worn under clothes without restricting motion

A new lightweight, low-profile and inexpensive ankle exoskeleton could be widely used among elderly people,

New AI algorithms could allow robots to learn to move by themselves, imitating animals

For a newborn giraffe or wildebeest, being born can be a perilous introduction to the

Real science has finally caught up to the science fiction of Iron Man’s transforming exoskeleton suit

BYU researchers unfold new class of mechanical devices In a paper published today in Science Robotics,

Robotic spine exoskeleton could lead to new treatments for children with spine deformities such as idiopathic scoliosis and kyphosis

Designed by Columbia Engineers, RoSE is first device to measure 3D stiffness of human torso,

Personalized exoskeletons can enhance human abilities and aid rehabilitation

Researchers have developed an exoskeleton system that provides personalized support for its user. In healthy

The first smart exoskeleton that recognizes the loss of balance – and prevents falling

A powered exoskeleton prevents the elderly from falling Wearable machines that enhance your movement and