Efforts to design devices emulating complex cognitive abilities and response processes of
biological systems have long been a coveted goal. Recent advancements in flexible …

Brain-machine interfaces (BMIs) combine methods, approaches, and concepts derived from
neurophysiology, computer science, and engineering in an effort to establish real-time …

Recovery of upper and lower limbs function is essential to reach independence in daily
activities in patients with upper motor neuron syndrome (UMNS). Rehabilitation can provide …

Augmenting the body with artificial limbs controlled concurrently to one's natural limbs has
long appeared in science fiction, but recent technological and neuroscientific advances …

Brain-machine interface (BMI) systems have been widely studied to allow people with motor
paralysis conditions to control assistive robotic devices that replace or recover lost function …

The emergence of robotic body augmentation provides exciting innovations that will
revolutionize the fields of robotics, human–machine interaction and wearable electronics …

Supernumerary robotic limbs (SRLs) are wearable robots designed to enhance the
sensorimotor abilities of humans. SRLs can be used to compensate for lost functions in …

Wearable robots have become a prevalent method in the field of human augmentation and
medical rehabilitation. Typical wearable robots mainly include exoskeletons and prostheses …

Intraneural interfaces are stimulation/registration devices designed to couple the peripheral
nervous system (PNS) with the environment. Over the last years, their use has increased in a …

Objective The objective of this study was the evaluation of the clinical and
neurophysiological effects of intensive robot-assisted hand therapy compared to intensive …