Engineering and Technology

Intelligent upper-limb exoskeleton integrated with soft bioelectronics and deep learning for intention-driven augmentation

J. Lee, K. Kwon, et al.

This groundbreaking research by Jinwoo Lee, Kangkyu Kwon, Ira Soltis, and colleagues unveils an intelligent upper-limb exoskeleton that uses deep learning to predict human movement intentions, achieving remarkable accuracy. By utilizing embedded soft wearable sensors, the system enhances strength and reduces muscle effort, paving the way for revolutionary applications in rehabilitation and assistance.

00:00

Playback language: English

Related Publications

Explore these studies to deepen your understanding of the subject.

Engineering and Technology

Soft wearable flexible bioelectronics integrated with an ankle-foot exoskeleton for estimation of metabolic costs and physical effort

J. Kim, P. Kantharaju, et al.

Engineering and Technology

Stretchable and anti-impact iontronic pressure sensor with an ultrabroad linear range for biophysical monitoring and deep learning-aided knee rehabilitation

H. Xu, L. Gao, et al.

Engineering and Technology

Deep-learning-based image segmentation integrated with optical microscopy for automatically searching for two-dimensional materials

S. Masubuchi, E. Watanabe, et al.

Medicine and Health

Development and evaluation of deep learning algorithms for assessment of acute burns and the need for surgery

C. Boissin, L. Laflamme, et al.

Listen, Learn & Level Up

Over 10,000 hours of research content in 25+ fields, available in 12+ languages.

No more digging through PDFs, just hit play and absorb the world's latest research in your language, on your time.

listen to research audio papers with researchbunny