2 research outputs found
Hands-free Evolution of 3D-printable Objects via Eye Tracking
Interactive evolution has shown the potential to create amazing and complex
forms in both 2-D and 3-D settings. However, the algorithm is slow and users
quickly become fatigued. We propose that the use of eye tracking for
interactive evolution systems will both reduce user fatigue and improve
evolutionary success. We describe a systematic method for testing the
hypothesis that eye tracking driven interactive evolution will be a more
successful and easier-to-use design method than traditional interactive
evolution methods driven by mouse clicks. We provide preliminary results that
support the possibility of this proposal, and lay out future work to
investigate these advantages in extensive clinical trials.Comment: 6 pages, 7 figure
Hands-free Evolution of 3D-printable Objects via Eye Tracking
Interactive evolution has shown the potential to create amazing and complex forms in both 2-D and 3-D settings. However, the algorithm is slow and users quickly become fatigued. We propose that the use of eye tracking for interactive evolution systems will both reduce user fatigue and improve evolutionary success. We describe a systematic method for testing the hypothesis that eye tracking driven interactive evolution will be a more successful and easierto-use design method than traditional interactive evolution methods driven by mouse clicks. We provide preliminary results that support the possibility of this proposal, and lay out future work to investigate these advantages in extensive clinical trials. 1