Add to ORKGMost research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for disabled people who are not able to communicate through other means. Recently it has been shown that BCI can also be used in games to give users a richer experience and new ways to interact with a computer or game console. This paper describes research conducted to find out what the differences are between using actual and imagined movement as modalities in a BCI game. Results show that there are significant differences in user experience and that actual movement is a more robust way of communicating through a BCI
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Recently research into Brain-Computer Interfacing (BCI) applications for healthy users, such as game...
AbstractNowadays, Human-Computer Interaction (HCI) systems e.g. keyboard, mouse and touch screen are...
Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for disabl...
Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for disabl...
i ii Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for d...
iii iv Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for...
In recent years we have seen a rising interest in brain-computer interfacing for human-computer inte...
In recent years we have seen a rising interest in brain-computer interfacing for human-computer inte...
BCI gaming is a very young field; most games are proof-of-concepts. Work that compares BCIs in a gam...
Brain-Computer Interfacing (BCI) has found applications for disabled users. Progress in BCI research...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
BCI gaming is a very young field; most games are proof-of-concepts. Work that compares BCIs in a gam...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Recently research into Brain-Computer Interfacing (BCI) applications for healthy users, such as game...
AbstractNowadays, Human-Computer Interaction (HCI) systems e.g. keyboard, mouse and touch screen are...
Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for disabl...
Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for disabl...
i ii Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for d...
iii iv Most research on Brain-Computer Interfaces (BCI) focuses on developing ways of expression for...
In recent years we have seen a rising interest in brain-computer interfacing for human-computer inte...
In recent years we have seen a rising interest in brain-computer interfacing for human-computer inte...
BCI gaming is a very young field; most games are proof-of-concepts. Work that compares BCIs in a gam...
Brain-Computer Interfacing (BCI) has found applications for disabled users. Progress in BCI research...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
BCI gaming is a very young field; most games are proof-of-concepts. Work that compares BCIs in a gam...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Brain-Computer Interfaces (BCIs) have enabled the brain with a new, non-muscular communication and c...
Recently research into Brain-Computer Interfacing (BCI) applications for healthy users, such as game...
AbstractNowadays, Human-Computer Interaction (HCI) systems e.g. keyboard, mouse and touch screen are...