TY - GEN
T1 - Flora robotica -- An Architectural System Combining Living Natural Plants and Distributed Robots
AU - Hamann, Heiko
AU - Divband Soorati, Mohammad
AU - Heinrich, Mary Katherine
AU - Hofstadler, Daniel Nicolas
AU - Kuksin, Igor
AU - Veenstra, Frank
AU - Wahby, Mostafa
AU - Nielsen, Stig Anton
AU - Risi, Sebastian
AU - Skrzypczak, Tomasz
AU - Zahadat, Payam
AU - Wojtaszek, Przemyslaw
AU - Støy, Kasper
AU - Schmickl, Thomas
AU - Kernbach, Serge
AU - Ayres, Phil
PY - 2017/9
Y1 - 2017/9
N2 - Key to our project flora robotica is the idea of creating a bio-hybrid system of tightly coupled natural plants and distributed robots to grow architectural artifacts and spaces. Our motivation with this ground research project is to lay a principled foundation towards the design and implementation of living architectural systems that provide functionalities beyond those of orthodox building practice, such as self-repair, material accumulation and self-organization. Plants and robots work together to create a living organism that is inhabited by human beings. User-defined design objectives help to steer the directional growth of the plants, but also the system's interactions with its inhabitants determine locations where growth is prohibited or desired (e.g., partitions, windows, occupiable space). We report our plant species selection process and aspects of living architecture. A leitmotif of our project is the rich concept of braiding: braids are produced by robots from continuous material and serve as both scaffolds and initial architectural artifacts before plants take over and grow the desired architecture. We use light and hormones as attraction stimuli and far-red light as repelling stimulus to influence the plants. Applied sensors range from simple proximity sensing to detect the presence of plants to sophisticated sensing technology, such as electrophysiology and measurements of sap flow. We conclude by discussing our anticipated final demonstrator that integrates key features of flora robotica, such as the continuous growth process of architectural artifacts and self-repair of living architecture.
AB - Key to our project flora robotica is the idea of creating a bio-hybrid system of tightly coupled natural plants and distributed robots to grow architectural artifacts and spaces. Our motivation with this ground research project is to lay a principled foundation towards the design and implementation of living architectural systems that provide functionalities beyond those of orthodox building practice, such as self-repair, material accumulation and self-organization. Plants and robots work together to create a living organism that is inhabited by human beings. User-defined design objectives help to steer the directional growth of the plants, but also the system's interactions with its inhabitants determine locations where growth is prohibited or desired (e.g., partitions, windows, occupiable space). We report our plant species selection process and aspects of living architecture. A leitmotif of our project is the rich concept of braiding: braids are produced by robots from continuous material and serve as both scaffolds and initial architectural artifacts before plants take over and grow the desired architecture. We use light and hormones as attraction stimuli and far-red light as repelling stimulus to influence the plants. Applied sensors range from simple proximity sensing to detect the presence of plants to sophisticated sensing technology, such as electrophysiology and measurements of sap flow. We conclude by discussing our anticipated final demonstrator that integrates key features of flora robotica, such as the continuous growth process of architectural artifacts and self-repair of living architecture.
UR - https://www.researchgate.net/publication/319700544_Flora_robotica_--_An_Architectural_System_Combining_Living_Natural_Plants_and_Distributed_Robots
M3 - Article in proceedings
BT - Proceedings of ECAL 2017
PB - MIT Press
T2 - Living Architectures Workshop 2017
Y2 - 4 September 2017 through 4 September 2017
ER -