Physical principles of brain–computer interfaces and their applications for rehabilitation, robotics and control of human brain states
Brain–computer interfaces (BCIs) development is closely related to physics. In this paper, we
review the physical principles of BCIs, and underlying novel approaches for registration …
review the physical principles of BCIs, and underlying novel approaches for registration …
Enhancing our lives with immersive virtual reality
M Slater, MV Sanchez-Vives - Frontiers in Robotics and AI, 2016 - frontiersin.org
Virtual reality (VR) started about 50 years ago in a form we would recognize today [stereo
head-mounted display (HMD), head tracking, computer graphics generated images] …
head-mounted display (HMD), head tracking, computer graphics generated images] …
Shared mechanisms underlie the control of working memory and attention
MF Panichello, TJ Buschman - Nature, 2021 - nature.com
Cognitive control guides behaviour by controlling what, when, and how information is
represented in the brain. For example, attention controls sensory processing; top-down …
represented in the brain. For example, attention controls sensory processing; top-down …
Speech synthesis from neural decoding of spoken sentences
Technology that translates neural activity into speech would be transformative for people
who are unable to communicate as a result of neurological impairments. Decoding speech …
who are unable to communicate as a result of neurological impairments. Decoding speech …
Brain–computer interfaces for communication and rehabilitation
U Chaudhary, N Birbaumer… - Nature Reviews …, 2016 - nature.com
Brain–computer interfaces (BCIs) use brain activity to control external devices, thereby
enabling severely disabled patients to interact with the environment. A variety of invasive …
enabling severely disabled patients to interact with the environment. A variety of invasive …
Restoring cortical control of functional movement in a human with quadriplegia
Millions of people worldwide suffer from diseases that lead to paralysis through disruption of
signal pathways between the brain and the muscles. Neuroprosthetic devices are designed …
signal pathways between the brain and the muscles. Neuroprosthetic devices are designed …
Brain-machine interfaces: from basic science to neuroprostheses and neurorehabilitation
MA Lebedev, MAL Nicolelis - Physiological reviews, 2017 - journals.physiology.org
Brain-machine interfaces (BMIs) combine methods, approaches, and concepts derived from
neurophysiology, computer science, and engineering in an effort to establish real-time …
neurophysiology, computer science, and engineering in an effort to establish real-time …
Noninvasive electroencephalogram based control of a robotic arm for reach and grasp tasks
Brain-computer interface (BCI) technologies aim to provide a bridge between the human
brain and external devices. Prior research using non-invasive BCI to control virtual objects …
brain and external devices. Prior research using non-invasive BCI to control virtual objects …
Real-time brain-machine interface in non-human primates achieves high-velocity prosthetic finger movements using a shallow feedforward neural network decoder
Despite the rapid progress and interest in brain-machine interfaces that restore motor
function, the performance of prosthetic fingers and limbs has yet to mimic native function …
function, the performance of prosthetic fingers and limbs has yet to mimic native function …
Long-term training with a brain-machine interface-based gait protocol induces partial neurological recovery in paraplegic patients
Brain-machine interfaces (BMIs) provide a new assistive strategy aimed at restoring mobility
in severely paralyzed patients. Yet, no study in animals or in human subjects has indicated …
in severely paralyzed patients. Yet, no study in animals or in human subjects has indicated …