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Computer scientists from the University of Colorado Boulder have developed a scalable shape display for walls and floors that produce reconfigurable structures on demand.

���Ҵ�ý�ƽ������ PhD candidate and ATLAS THING Lab member Ryo Suzuki recently developed LiftTiles—room-scale, actuator-based building blocks that pave the way for a new generation of shape-changing interfaces.

To simplify shape-shifting interfaces, ���Ҵ�ý�ƽ������ researchers have developed “LiftTiles,” modular blocks that raise to the desired height via air pressure and then collapse under spring force when needed.

Tech Xplore features the ShapeBots project, developed by ATLAS PhD students Ryo Suzuki and Clement Zheng.

Researchers from ATLAS Institute's THING, ACME and Unstable Design labs took home "Best Paper" and "Best Pictorial" awards as well as contributed four research presentations at the ACM conference on Designing Interactive Systems (DIS '19), held in San Diego, June 23-28.

"MorphIO: Entirely Soft Sensing and Actuation Modules for Programming Shape Changes through Tangible Interaction," authored by Ryo Suzuki and researchers from Keio University and The University of Tokyo in Japan, won a "Best Paper" award at the 2019 Designing Interactive Systems Conference (DIS '19) held in San Diego June 23-28. Suzuki, an ATLAS affiliated PhD student who does research for the ACME and THING laboratories, presented the research during the DIS '19 Shape Changes Interfaces Track.