Enrico Costanza, Samuel A. Inverso, Rebecca Allen, Pattie Maes
anu.edu.au Mobile communication devices, such as mobile phones and networked personal digital assistants (PDAs), allow users to be constantly connected and communicate anywhere and at any time, often...
jdb[at]cs[dot]rit[dot]edu (2008)
Jessica D. Bayliss, Samuel A. Inverso
sinverso[at]gmail[dot]com Recent advances in signal processing have made brain-computer interfaces (BCIs) feasible for use as an alternative control option for those with severe motor impairments. It...
EMG as a Subtle Input Interface for Mobile Computing (2008)
Enrico Costanza, Alberto Perdomo, Samuel A. Inverso, Rebecca Allen
Abstract. Rather than merely imitating the desktop metaphor for mobile devices, new interface paradigms that take into account the particular characteristics of mobility, need to be developed. In...
eye-q: Eyeglass peripheral display for subtle intimate notifications (2006)
Enrico Costanza, Samuel A. Inverso, Elan Pavlov, Rebecca Allen, Pattie Maes
Mobile devices are generally used in public, where the user is surrounded by others not involved in the interaction. Audible notification cues are often a cause of unnecessary disruption and...
Toward subtle intimate interfaces for mobile devices using an emg controller (2005)
Enrico Costanza, Samuel A. Inverso, Rebecca Allen
Using a mobile device in a social context should not cause embarrassment and disruption to the immediate environment. Interaction with mobile and wearable devices needs to be subtle, discreet and...
Toward subtle intimate interfaces for mobile devices using an emg controller (2005)
Enrico Costanza, Samuel A. Inverso, Rebecca Allen
Using a mobile device in a social context should not cause embarrassment and disruption to the immediate environment. Interaction with mobile and wearable devices needs to be subtle, discreet and...
Automatic error recovery using P3 response verification for a brain-computer interface / (2004)
"A brain-computer interface (BCI) is an augmentative communication mechanism that does not rely on peripheral nerves or muscles. Current BCIs are error prone and slow with error rates of 10 to 30%...