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Brain-computer interfaces for communication
2020Locked-in syndrome (LIS) is characterized by an inability to move or speak in the presence of intact cognition and can be caused by brainstem trauma or neuromuscular disease. Quality of life (QoL) in LIS is strongly impaired by the inability to communicate, which cannot always be remedied by traditional augmentative and alternative communication (AAC ...
Mariska J, Vansteensel +1 more
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The Future of Brain–Computer Interfaces
IEEE Pulse, 2022Operating a drone, playing video games, or controlling a robot simply by thinking are exciting applications of brain-computer interfaces (BCIs) that pave the way for more mind-bending breakthroughs. Crucially, BCIs, which enable the brain to exchange signals with an outside device, also represent a powerful tool to restore movement, speech, touch, and ...
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Passive Brain–Computer Interfaces
2014Abstract Passive Brain-Computer interfaces (passive BCI), also named implicitBCI, provide information from user mental activity to a computerized applicationwithout the need for the user to control his brain activity. Passive BCI seem particularlyrelevant in the context of music creation where they can provide novel informationto adapt the music ...
George, Laurent, Lécuyer, Anatole
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A collaborative brain-computer interface
2011 4th International Conference on Biomedical Engineering and Informatics (BMEI), 2011Electroencephalogram (EEG) based brain-computer interfaces (BCI) have been studied for several decades since the 1970s. Current BCI research mainly aims to provide a new communication channel to patients with motor disabilities to improve their quality of life.
Yijun Wang 0001 +4 more
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Brain-Computer Interface-Based Soft Robotic Glove Rehabilitation for Stroke
IEEE Transactions on Biomedical Engineering, 2020Objective: This randomized controlled feasibility study investigates the ability for clinical application of the Brain-Computer Interface-based Soft Robotic Glove (BCI-SRG) incorporating activities of daily living (ADL)-oriented tasks for stroke ...
Nicholas Cheng +9 more
semanticscholar +1 more source
2013
Brain-computer interfaces (BCIs) are systems that give their users communication and control capabilities that do not depend on muscles. The user's intentions are determined from activity recorded by electrodes on the scalp, on the cortical surface, or within the brain.
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Brain-computer interfaces (BCIs) are systems that give their users communication and control capabilities that do not depend on muscles. The user's intentions are determined from activity recorded by electrodes on the scalp, on the cortical surface, or within the brain.
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uBrain: a unary brain computer interface
International Symposium on Computer Architecture, 2022Brain computer interfaces (BCIs) have been widely adopted to enhance human perception via brain signals with abundant spatial-temporal dynamics, such as electroencephalogram (EEG).
Di Wu +3 more
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Improving brain-computer interfaces
Communications of the ACM, 2011Researchers are demonstrating advances in restorative BCI systems that are giving paralyzed individuals more effective ways to communicate, move, and interact with their environment.
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CeDeROM Brain Computer Interface
2012Brain Computer Interface is a biomedical equipment used to perform user interaction with computer equipment based on a brain activity measurement. Modular Research System presented in this article is a prototype platform under development aimed for supporting the research groups with low---cost versatile and flexible hardware platform for BCI research ...
Tomasz Boleslaw Cedro, Antoni Grzanka
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Usability of Brain Computer Interfaces
2011Objective. The aim of this work is to assess the usability of two BCI prototypes by measuring interaction with the systems in context, considering the performance, cognitive workload and satisfaction of non-disabled users in order to better understand how the interface affect these parameters.
Pasqualotto, E +3 more
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