TY  - GEN
T3  - eCAADe
TI  - Robotic Assembly of Timber Plate Structures
Y1  - 2024/08/28/
N1  - This version is the version of record. For information on re-use, please refer to the publisher?s terms and conditions.
EP  - 156
N2  - This research paper introduces design and assembly strategies for autonomous construction of timber plate structures. Current state-of-the-art research shows robotic assembly of Integrally Attached Timber Plate Structures (IATPS) is feasible, yet achieving precise, fully automated assembly encounters challenges such as setup inaccuracies, spring back forces, material warping, and a lack of strategies for design optimization tailored to autonomous assembly. The research comprises three main areas: designing timber plate structures with an emphasis on optimizing joinery design for autonomous assembly, establishing a multi-robotic path planning that considers assembly sequence and direction of assembly, and implementing feedback-based assembly using real-time positional tracking system for accuracy and efficiency. The research investigates the constraints of design by constructing two prototypes: a folded timber plate structure and a trivalent polyhedral timber plate structure. The folded timber plate prototype serves to explore and analyze three different types of joinery. Through this experimentation, effective joinery assembly strategies are identified, which are subsequently applied in the final prototype of the trivalent polyhedral timber plate structure. This research paves the way for future exploration in the field, indicating vast potential for further innovations in design strategies for automated assembly.
SN  - 2684-1843
ID  - discovery10196736
SP  - 147
PB  - eCAADe
CY  - Nicosia, Cyprus
AV  - public
KW  - Autonomous Robotic Assembly
KW  -  Multi-Robotic Path Planning
KW  -  Feedback Based Assembly
KW  -  Design Strategies & Optimization
UR  - https://papers.cumincad.org/cgi-bin/works/Show?ecaade2024_193
A1  - Gracia, Juan
A1  - Anil, Balu
A1  - Bhaskar, Cephas
A1  - Perutxet Olesti, Guillem
A1  - Meng, Jingyuan
A1  - Devadass, Pradeep
ER  -