Flexible electronics, which can have mechanical properties compatible with the brain, could address these limitations and be used to create the next generation of brain–computer interfaces. Here we explore the use of flexible electronics in the development of brain–computer interfaces. We examine ...
In addition, the way the soft-backed brain-computer interfaces are manufactured allows for larger sensing surfaces, which means that a significantly larger area of the brain surface can be monitored simultaneously. In theAdvanced Functional Materialspaper, the researchers demonstrate that a penetrating m...
Brain–computer interfaces and neural prostheses based on the detection of electrocorticography (ECoG) signals are rapidly growing fields of research. Several technologies are currently competing to be the first to reach the market; however, none of them fulfill yet all the requirements of the ideal...
Conformable Brain-Computer and Brain-Machine Interfaces We welcome submission for a themed collection on “Conformable Brain-Computer and Brain-Machine Interfaces” guest-edited by Xinxia Cai, Jeffrey R Capadona, Maria Asplund and Ulrich G. Hofmann. ...
Flexible porous graphene array offers a minimally invasive but high efficiency neuromodulation scheme with potential applications in cortical mapping, brain-computer interfaces, treatment of neurological disorders, where high resolution and simultaneous recording and stimulation of neural activity are crucial. ...
An ideal neural interface would be able to chronically probe the brain at large coverage without interrupting the neural circuit under test. Towards such a goal, advanced neural interfaces have been developed by employing emerging materials and fabrication technologies, with chronic stability at a ...
Wearable Technology Overview ReportWearable Technology Forecasts Advanced Wound Care Technologies Brain Computer Interfaces Digital Health and Artificial Intelligence Displays for Virtual, Augmented and Mixed Reality E-Textiles and Smart Clothing Markets Electronic Skin Patches Optics for Virtual, Augmented and ...
(i.e., electrocorticography; ECoG).14-16ECoG could be the basis for so-called electroceuticals—devices to treat diseases with electrical signals—and is a promising technique for brain-computer interfaces. However, two challenges must be resolved for this application: non-invasiveness and array ...
The results suggest potential use in cognitive state monitors and brain-computer interfaces. As highlighted in this review, advanced concepts in semiconductor nanomaterials, assembly methods and mechanics designs now estab- lish realistic foundations for technologies with important capabilities that are ...
In: Proceedings of 3D User Interfaces, Washington, 2011. 67--74. Google Scholar [36] Shen Y J, Hao Z H, Wang P F, et al. A novel human detection approach based on depth map via kinect. In: Proceedings of Computer Vision and Pattern Recognition Workshops, Portland, 2013. 535--...