Take a sneak peek at the new NIST.gov and let us know what you think!
(Please note: some content may not be complete on the beta site.).

View the beta site
NIST logo

Publication Citation: Initial ACT-R Extensions for User Modeling in the Mobile Touchscreen Domain

NIST Authors in Bold

Author(s): Kristen Greene; Franklin Tamborello;
Title: Initial ACT-R Extensions for User Modeling in the Mobile Touchscreen Domain
Published: July 12, 2013
Abstract: Advances in mobile touchscreen computing offer new opportunities to test traditional cognitive architectures and modeling tools in a novel task domain. ACT-Touch, an extension of the ACT-R 6 (Adaptive Control of Thought- Rational) cognitive architecture, seeks to update and expand methods for modeling touch and gesture in today‰s increasingly mobile computing environment. ACT-Touch adds new motor movement styles to the existing ACT-R architecture (such as tap, swipe, pinch, reverse-pinch and rotate gestures) and also includes a simulated multi-touch touchscreen device with which models may interact. An ACT-Touch model was constructed to explore the nature of human errors qualitatively observed during previously conducted formative usability testing, where participants occasionally missed taps on a particular interface button while completing a biometric sensor configuration task on a tablet computer. Due to features unique to the mobile touchscreen environment,finger size relative to target size,these objectively small errors in motor movement combined with interface usability issues to produce disproportionately large effects on cognition and task performance. This finding improved both the interface (practical application) and the model (theory).
Conference: ICCM 2013, The 12th International Conference on Cognitive Modeling
Proceedings: International Conference on Cognitive Modeling (ICCM)
Location: Ottawa, -1
Dates: July 12-14, 2013
Keywords: ACT-R 6, ACT-Touch, cognitive architectures, computational cognitive modeling, mobile handheld devices, motor execution errors, motor movement variability, tablet computers, touch and gesture, usability testing, user modeling.
Research Areas: Biometrics, Information Technology, Methods, Measurements
PDF version: PDF Document Click here to retrieve PDF version of paper (631KB)