A Concurrent Physical and Digital Modeling Environment / Exploring Tactile and Parametric Interactions in Design Modeling
This thesis explores the potential of a concurrent physical and digital modeling environment. Inspired by constructionist notions of embodied cognition in design, a novel interface for design modeling is presented where designers can take advantage of the affordances of both physical and digital modeling environments, and work back and forth between the two. Using Processing, along with the Kinect depth sensor, the system uses depth data read from a physical modeling space to produce an enhanced digital representation in real time. The result is a proof-of-concept concurrent physical and digital modeling environment where users can design by moving and stacking wooden blocks in a physical space, which is represented (and enhanced) digitally as a “voxel space.” Crucially, the system combines design affordances specific to each media: while the physical space offers tactile and embodied forms of design interaction, the digital space offers different views and parametric editing capabilities —as well as save configuration, and the capacity to perform basic analyses. Following a short review of experimental computational and tangible interaction design interfaces, the thesis discusses the system's implementation, its limitations, and next steps.
History
Date
2017-05-01Degree Type
- Master's Thesis
Department
- Architecture
Degree Name
- Master of Science (MS)