Robotic arms have opened new possibilities for conceptualizing and materializing architecture. Despite the precision and control that they provide, they have significant limitations related to sensing and responding to the physical environment. These limitations implicitly define what can be designed and built, particularly in high-precision and large-scale architectural applications where optimific conditions are not always possible or practical.
This research proposes a staged study aiming to develop a computational framework that can respond, adapt, and contribute to complex design inquiries.
|Subtitle||Exploring modalities of augmented robotic fabrication for automation and beyond|
|License||CC BY-NC 4.0 (Attribution-NonCommercial)|
|Publication Date||September 23, 2021|
|Deposited||February 22, 2022|