Abstract
The use of robots in architectural construction has been a research field since the 1980s. Driven by both productive and creative concerns, different systems have been devised based on large-scale robotic structures, mobile robotic units or flying robotic vehicles. By analyzing these approaches and discussing their advantages and limitations, this paper presents an alternative strategy to automate the building construction processes in on-site scenarios. The SPIDERobot is a cable-robot system developed to perform assembly operations, which is driven by a specific Feedback Dynamic Control System (FDCS) based on a vision system. By describing and illustrating this research work, the authors argue about the advantages of this cable robot system to deal with the complexity and the scale of building construction in architecture.
The original version of this chapter was revised: The missing author names were added. The erratum to this chapter is available at DOI 10.1007/978-3-319-26378-6_40
An erratum to this chapter can be found at http://dx.doi.org/10.1007/978-3-319-26378-6_40
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Bock, T and Langenberg, S 2014, ‘Changing building sites. Industrialization and Automation of the Building Process’, in Gramazio, F and Kohler, M (eds), Made by Robots - Architectural Design, John Wiley & Sons. no.229, pp. 88–99.
Bosscher, P, Williams, RL, Bryson, LS, Castro-Lacouture, D 2007, ‘Cable-suspended robotic contour crafting system’, in Automation in Construction, May 2008, vol.17, no.1, pp. 45–55.
Budig, M, Laurer, WV, Petrovice, R and Lim, J 2014, ‘Design of robotic fabricated high rises’, in McGee, W and Ponce de Leon, M (eds), Robotic Fabrication in Architecture, Art and Design 2014, Springer, Michigan USA, pp. 111–130.
Cousineau, L and Miura, N 1998, Construction Robots: The Search for New Building Technology in Japan, ASCE Press.
Gambao, E, Balaguer, C and Gebhart, F 1999, ‘A Robotic System for Automated Masonry’, in Automation and Robotics in Construction XVI, pp. 509–602.
Gramazio, F and Kohler, M 2008, Digital Materiality, Lars Muller Publishers, Basel.
Helm, V, Ercan, S, Gramazio, F, Kohler, M 2012, ‘In-Situ Robotic Construction: Extending the Digital Fabrication Chain in Architecture’, in Synthetic Digital Ecologies: Proceedings of the 32nd Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) 2012, San Francisco, pp. 169–176.
Khoshnevis, B and Bekey, G 2002, ‘Automated Construction using Contour Crafting – Applications on Earth and Beyond’, Proceedings of the 19th ISARC, Washington, USA, pp. 489–495.
Kolarevic, B 2001, ‘Digital Fabrication: Manufacturing Architecture in the Information Age’, in Jabi, W (ed), Reinventing the Discourse, Proceedings of the ACADIA 2001 Conference, Washington DC, pp. 268–277.
Mirjan, A, Gramazio, F and Kohler, M 2014, ‘Building with flying robots’, in Gramazio, F, Kohler, M and Langenberg, S (eds), FABRICATE: Negotiating Design and Making, Zurich, pp. 266–271.
Moreira, E, Pinto, AM, Costa, P, Moreira, AP,Veiga, G, Lima, J, Sousa, JP and Costa, P 2015, ‘Cable Robot for Non-Standard Architecture and Construction: A Dynamic Positioning System’, in Industrial Technology (ICIT), 2015 IEEE International Conference, pp. 3184–3189.
Petters, S and Belden, R 2014, ‘SAM, the robotic bricklayer’, in SMART / Dynamics of Masonry, vol.1, no.4, pp. 10–14.
Wilmann, J, Augugliaro, F, Cadalbert, F, D’Andrea, R, Gramazio, F and Kohler, M 2012, ‘Aerial robotic construction towards a new field of architectural research’, in International Journal of Architectural Computing, vol. 10, no.3, pp. 439–459.
Acknowledgments
This work was developed in the scope of the Research Project with the reference PTDC/ATP-AQI/5124/2012, funded by FEDER funds through the Operational Competitiveness Programme—COMPETE and by national funds through the FCT (Foundation for the Science and Technology).
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Sousa, J.P. et al. (2016). The SPIDERobot: A Cable-Robot System for On-site Construction in Architecture. In: Reinhardt, D., Saunders, R., Burry, J. (eds) Robotic Fabrication in Architecture, Art and Design 2016. Springer, Cham. https://doi.org/10.1007/978-3-319-26378-6_17
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DOI: https://doi.org/10.1007/978-3-319-26378-6_17
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