ABSTRACT
As an option for remote text entry, the possibility of bimanual text entry was explored using a touchpad that is called two-thumb touchpad typing (4-T). The design of a 4-T interface presents a few important design options to examine, and one of them is a target selection method. In this study, two 4-T interfaces were designed, called SlideType and FlyType. These interfaces use two different target selection methods, slide-and-click and fly-and-touch, respectively, and their prototypes were implemented using an optical hover-tracking touchpad. An experiment with the prototypes showed that FlyType was faster than SlideType and could achieve a text entry speed over 24 words per minute after practicing 2 hr. In addition, a microanalysis of thumb movements during the experiment showed that there are clear quantitative differences between the two methods in the degree of ballisticity of finger motions, in the concurrency of the movements of the two thumbs, and in the degree of integration between reaching and selecting actions, and that FlyType supports a more integral, ballistic, and concurrent motor skill than SlideType.
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Jeongmin Son
Jeongmin Son received his B.S and M.S. degrees in computer science from KAIST in 2012 and 2014, respectively. He is currently pursuing a Ph.D. degree at the School of Computing, KAIST. His current research interests are virtual reality and hover interaction.
Geehyuk Lee
Geehyuk Lee received a B.Sc. and M.Sc. in physics from KAIST in 1990 and 1992, respectively, and a Ph.D. degree in electrical engineering from the University of Pennsylvania in 2000. He is currently an associate professor at the School of Computing, KAIST. His primary research interests are interaction devices and techniques for smart information appliances and wearable computers.