Self-Organized Construction with Continuous Building Material: Higher Flexibility based on Braided Structures

Mary Katherine Heinrich; Mostafa Wahby; Mohammad Divband Soorati; Daniel Nicolas Hofstadler; Payam Zahadat; Phil Ayres; Kasper Støy; Heiko Hamann

Self-Organized Construction with Continuous Building Material: Higher Flexibility based on Braided Structures

Mary Katherine Heinrich, Mostafa Wahby, Mohammad Divband Soorati, Daniel Nicolas Hofstadler, Payam Zahadat, Phil Ayres, Kasper Støy, Heiko Hamann

Publications: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

418 Downloads (Pure)

Abstract

Self-organized construction with continuous, structured building material, as opposed to modular units, offers new challenges to the robot-based construction process and lends the opportunity for increased flexibility in constructed artifact properties, such as shape and deformation. As an example investigation, we look at continuous filaments organized into braided structures, within the context of bio-hybrids
constructing architectural artifacts. We report the result of an early swarm robot experiment. The robots successfully constructed a braid in a self-organized process. The construction process can be extended by using different materials and by embedding sensors during the self-organized construction directly into the braided structure. In future work, we plan to apply dedicated braiding robot hardware and to construct sophisticated 3-d structures with local variability in patterns of filament interlacing.

Original language	English
Title of host publication	Proceedings of 1st International Workshop on Self-Organising Construction (SOCO)
Number of pages	6
Publication date	2016
Pages	154-159
Publication status	Published - 2016
Event	2016 IEEE : 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W) - Duration: 12 Sept 2016 → 16 Sept 2016 http://ieeexplore.ieee.org/xpl/mostRecentIssue.jsp?punumber=7784661

Conference

Conference	2016 IEEE
Period	12/09/2016 → 16/09/2016
Internet address	http://ieeexplore.ieee.org/xpl/mostRecentIssue.jsp?punumber=7784661

Artistic research

No

Access to Document

Self-Organized Construction with Continuous Building Material- Higher Flexibility based on Braided StructuresFinal published version, 13.3 MB

flora robotica: Flora Robotica: Societies of Symbiotic Robot-Plant Bio-Hybrids as Social Architectural Artifacts
Hamann, H., Ayres, P., Schmickl, T., Wojtaszek, P., Stoy, K., Kernbach, S., Wahby, M., Divband Soorati, M., Heinrich, M. K., Zahadat, P., Hofstadler, D. N., Skrzypczak, T., Wadurkar, S., Nielsen, S. A., Veenstra, F. & Kuksin, I.
01/04/2015 → 31/03/2019
Project: Research

Cite this

@inproceedings{2133890287f54db483c111c12355bd9e,

title = "Self-Organized Construction with Continuous Building Material: Higher Flexibility based on Braided Structures",

abstract = "Self-organized construction with continuous, structured building material, as opposed to modular units, offers new challenges to the robot-based construction process and lends the opportunity for increased flexibility in constructed artifact properties, such as shape and deformation. As an example investigation, we look at continuous filaments organized into braided structures, within the context of bio-hybridsconstructing architectural artifacts. We report the result of an early swarm robot experiment. The robots successfully constructed a braid in a self-organized process. The construction process can be extended by using different materials and by embedding sensors during the self-organized construction directly into the braided structure. In future work, we plan to apply dedicated braiding robot hardware and to construct sophisticated 3-d structures with local variability in patterns of filament interlacing.",

author = "Heinrich, {Mary Katherine} and Mostafa Wahby and {Divband Soorati}, Mohammad and {Nicolas Hofstadler}, Daniel and Payam Zahadat and Phil Ayres and Kasper St{\o}y and Heiko Hamann",

year = "2016",

language = "English",

pages = "154--159",

booktitle = "Proceedings of 1st International Workshop on Self-Organising Construction (SOCO)",

note = "2016 IEEE : 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W) ; Conference date: 12-09-2016 Through 16-09-2016",

url = "http://ieeexplore.ieee.org/xpl/mostRecentIssue.jsp?punumber=7784661",

}

Self-Organized Construction with Continuous Building Material: Higher Flexibility based on Braided Structures. / Heinrich, Mary Katherine; Wahby, Mostafa; Divband Soorati, Mohammad et al.
Proceedings of 1st International Workshop on Self-Organising Construction (SOCO). 2016. p. 154-159.

Publications: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Self-Organized Construction with Continuous Building Material

T2 - 2016 IEEE

AU - Heinrich, Mary Katherine

AU - Wahby, Mostafa

AU - Divband Soorati, Mohammad

AU - Nicolas Hofstadler, Daniel

AU - Zahadat, Payam

AU - Ayres, Phil

AU - Støy, Kasper

AU - Hamann, Heiko

PY - 2016

Y1 - 2016

N2 - Self-organized construction with continuous, structured building material, as opposed to modular units, offers new challenges to the robot-based construction process and lends the opportunity for increased flexibility in constructed artifact properties, such as shape and deformation. As an example investigation, we look at continuous filaments organized into braided structures, within the context of bio-hybridsconstructing architectural artifacts. We report the result of an early swarm robot experiment. The robots successfully constructed a braid in a self-organized process. The construction process can be extended by using different materials and by embedding sensors during the self-organized construction directly into the braided structure. In future work, we plan to apply dedicated braiding robot hardware and to construct sophisticated 3-d structures with local variability in patterns of filament interlacing.

AB - Self-organized construction with continuous, structured building material, as opposed to modular units, offers new challenges to the robot-based construction process and lends the opportunity for increased flexibility in constructed artifact properties, such as shape and deformation. As an example investigation, we look at continuous filaments organized into braided structures, within the context of bio-hybridsconstructing architectural artifacts. We report the result of an early swarm robot experiment. The robots successfully constructed a braid in a self-organized process. The construction process can be extended by using different materials and by embedding sensors during the self-organized construction directly into the braided structure. In future work, we plan to apply dedicated braiding robot hardware and to construct sophisticated 3-d structures with local variability in patterns of filament interlacing.

M3 - Article in proceedings

SP - 154

EP - 159

BT - Proceedings of 1st International Workshop on Self-Organising Construction (SOCO)

Y2 - 12 September 2016 through 16 September 2016

ER -

Self-Organized Construction with Continuous Building Material: Higher Flexibility based on Braided Structures

Abstract

Conference

Artistic research

Access to Document

Projects

flora robotica: Flora Robotica: Societies of Symbiotic Robot-Plant Bio-Hybrids as Social Architectural Artifacts

Cite this