uses shape capture and display to physically enhance interactions with remote people and environments.
dynamically changes material and form to continuously adapt the physical and virtual interface to user interactions.
explores rapid and fluid transitions between physical and visual representations of dynamic digital content.
enable programmable stiffness, haptic feedback and deformation, for new types of flexible and shape-changing interactions.
Physical Telepresence: Shape Capture and Display for Embodied, Computer-mediated Remote Collaboration
Leithinger, D., Follmer, S., Olwal, A., and Ishii, H.
Proceedings of UIST 2014 (ACM Symposium on User Interface Software and Technology), Honolulu, HI, Oct 5-8, 2014, pp. 461-470.
UIST 2014
PDF [5.5MB]
Shape Displays: Spatial Interaction with Dynamic Physical Form
Leithinger, D., Follmer, S., Olwal, A., and Ishii, H.
CG&A 2015 (IEEE Computer Graphics and Applications, Vol. 35, no 5), Sep -Oct , 2015, pp. 417-426.
CG&A 2015
PDF [0.5MB]
inFORM: Dynamic Physical Affordances and Constraints through Shape and Object Actuation
Follmer, S., Leithinger, D., Olwal, A., Hogge, A., and Ishii, H.
Proceedings of UIST 2013 (ACM Symposium on User Interface Software and Technology), St Andrews, UK, Oct 8-11, 2013, pp. 417-426.
UIST 2013
PDF [0.5MB]
Sublimate: State-Changing Virtual and Physical Rendering to Augment Interaction with Shape Displays
Leithinger, D., Follmer, S., Olwal, A., Luescher, S., Hogge, A., Lee, J., and Ishii, H.
Proceedings of CHI 2013 - Best Paper Honorable Mention Award (Top 5%) (SIGCHI Conference on Human Factors in Computing Systems), Paris, France, Apr 27-May 2, 2013, pp. 1441-1450.
CHI 2013 - Best Paper Honorable Mention Award (Top 5%)
PDF [1MB]
Jamming User Interfaces: Programmable Particle Stiffness and Sensing for Malleable and Shape-Changing Devices
Follmer, S., Leithinger, D., Olwal, A., Cheng, N., and Ishii, H.
Proceedings of UIST 2012 - Best Paper Award (Top 1%) (ACM Symposium on User Interface Software and Technology), Cambridge, MA, Oct 7-10, 2012, pp. 519-528.
UIST 2012 - Best Paper Award (Top 1%)
PDF [8.3MB]