TY - GEN
T1 - ROBOSENSE 2.0
T2 - 38th Annual Conference of the Association for Computer Aided Design in Architecture: Recalibration on Imprecision and Infidelity, ACADIA 2018
AU - Bilotti, Jeremy
AU - Norman, Bennett
AU - Rosenwasser, David
AU - Liu, Jingyang Leo
AU - Sabin, Jenny
N1 - Publisher Copyright:
© CURRAN-CONFERENCE. All rights reserved.
PY - 2018
Y1 - 2018
N2 - “Robosense 2.0: Robotic Sensing and Architectural Ceramic Fabrication” demonstrates a generative design process based on collaboration between designers, robotic tools, advanced software, and nuanced material behavior. The project employs fabrication tools that are typically used in highly precise and predetermined applications, but uniquely thematizes the unpredictable aspects of these processes as applied to architectural component design. By integrating responsive sensing systems, this paper demonstrates real-time feedback loops that consider the spontaneous agency and intuition of the architect (or craftsperson) rather than the execution of static or predetermined designs. This paper includes new developments in robotics software for architectural design applications, ceramic-deposition 3D printing, sensing systems, materially driven pattern design, and techniques with roots in the arts and crafts. Considering the increasing accessibility and advancement of 3D printing and robotic technologies, this project seeks to challenge the erasure of materiality: when mistakes or accidents caused by inconsistencies in natural material are avoided or intentionally hidden. Instead, the incorporation of material and user-input data yields designs that are imbued with more nuanced traces of making. This paper suggests the potential for architects and craftspeople to maintain a more direct and active relationship with the production of their designs.
AB - “Robosense 2.0: Robotic Sensing and Architectural Ceramic Fabrication” demonstrates a generative design process based on collaboration between designers, robotic tools, advanced software, and nuanced material behavior. The project employs fabrication tools that are typically used in highly precise and predetermined applications, but uniquely thematizes the unpredictable aspects of these processes as applied to architectural component design. By integrating responsive sensing systems, this paper demonstrates real-time feedback loops that consider the spontaneous agency and intuition of the architect (or craftsperson) rather than the execution of static or predetermined designs. This paper includes new developments in robotics software for architectural design applications, ceramic-deposition 3D printing, sensing systems, materially driven pattern design, and techniques with roots in the arts and crafts. Considering the increasing accessibility and advancement of 3D printing and robotic technologies, this project seeks to challenge the erasure of materiality: when mistakes or accidents caused by inconsistencies in natural material are avoided or intentionally hidden. Instead, the incorporation of material and user-input data yields designs that are imbued with more nuanced traces of making. This paper suggests the potential for architects and craftspeople to maintain a more direct and active relationship with the production of their designs.
UR - http://www.scopus.com/inward/record.url?scp=85060373550&partnerID=8YFLogxK
M3 - Conference Proceeding
AN - SCOPUS:85060373550
T3 - Recalibration on Imprecision and Infidelity - Proceedings of the 38th Annual Conference of the Association for Computer Aided Design in Architecture, ACADIA 2018
SP - 276
EP - 285
BT - Recalibration on Imprecision and Infidelity - Proceedings of the 38th Annual Conference of the Association for Computer Aided Design in Architecture, ACADIA 2018
A2 - Del Signore, Marcella
A2 - Wit, Andrew John
A2 - Anzalone, Phillip
A2 - Anzalone, Phillip
PB - ACADIA
Y2 - 18 October 2018 through 20 October 2018
ER -