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Constructing living buildings: a review of relevant technologies for a novel application of biohybrid robotics

Constructing living buildings: a review of relevant technologies for a novel application of biohybrid robotics
Constructing living buildings: a review of relevant technologies for a novel application of biohybrid robotics
Biohybrid robotics takes an engineering approach to the expansion and exploitation of biological behaviours for application to automated tasks. Here, we identify the construction of living buildings and infrastructure as a high-potential application domain for biohybrid robotics, and review technological advances relevant to its future development. Construction, civil infrastructure maintenance and building occupancy in the last decades have comprised a major portion of economic production, energy consumption and carbon emissions. Integrating biological organisms into automated construction tasks and permanent building components therefore has high potential for impact. Live materials can provide several advantages over standard synthetic construction materials, including self-repair of damage, increase rather than degradation of structural performance over time, resilience to corrosive environments, support of biodiversity, and mitigation of urban heat islands. Here, we review relevant technologies, which are currently disparate. They span robotics, self-organizing systems, artificial life, construction automation, structural engineering, architecture, bioengineering, biomaterials, and molecular and cellular biology. In these disciplines, developments relevant to biohybrid construction and living buildings are in the early stages, and typically are not exchanged between disciplines. We, therefore, consider this review useful to the future development of biohybrid engineering for this highly interdisciplinary application.
1742-5689
Heinrich, Mary Katherine
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Mammen, Sebastian von
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Hofstadler, Daniel Nicolas
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Wahby, Mostafa
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Zahadat, Payam
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Skrzypczak, Tomasz
eb1aa6b5-ef56-4182-af7a-dbbca4b3f584
Soorati, Mohammad Divband
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Krela, Rafał
a4dde507-5572-4a89-af9e-6d0399a18a00
Kwiatkowski, Wojciech
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Schmickl, Thomas
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Ayres, Phil
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Stoy, Kasper
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Hamann, Heiko
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Heinrich, Mary Katherine
1d88a9a7-1772-4c8c-ac41-204b8dfbe7bf
Mammen, Sebastian von
602cc779-7ea2-4ef0-8438-e8b2bbc66636
Hofstadler, Daniel Nicolas
915fcfde-a698-4262-99cf-5862a042a57a
Wahby, Mostafa
5affe02a-c4ba-4c19-8ead-761d7da8c403
Zahadat, Payam
11cef693-331c-4c1d-8ffb-48ac1e72c643
Skrzypczak, Tomasz
eb1aa6b5-ef56-4182-af7a-dbbca4b3f584
Soorati, Mohammad Divband
35fe6bbb-ce52-4c21-a46e-9bb0e31d246c
Krela, Rafał
a4dde507-5572-4a89-af9e-6d0399a18a00
Kwiatkowski, Wojciech
64af577f-f3a0-4511-a876-91a8301c3455
Schmickl, Thomas
81a91212-85c1-4233-b699-696f1d94d3f6
Ayres, Phil
6d9c47a4-3197-46c3-8dbd-057659b15a31
Stoy, Kasper
ca856db0-978a-4fb0-acdb-1de635d1f101
Hamann, Heiko
4f406384-2d52-4975-8458-7ce0037babc2

Heinrich, Mary Katherine, Mammen, Sebastian von, Hofstadler, Daniel Nicolas, Wahby, Mostafa, Zahadat, Payam, Skrzypczak, Tomasz, Soorati, Mohammad Divband, Krela, Rafał, Kwiatkowski, Wojciech, Schmickl, Thomas, Ayres, Phil, Stoy, Kasper and Hamann, Heiko (2019) Constructing living buildings: a review of relevant technologies for a novel application of biohybrid robotics. Journal of the Royal Society Interface, 16 (156). (doi:10.1098/rsif.2019.0238).

Record type: Article

Abstract

Biohybrid robotics takes an engineering approach to the expansion and exploitation of biological behaviours for application to automated tasks. Here, we identify the construction of living buildings and infrastructure as a high-potential application domain for biohybrid robotics, and review technological advances relevant to its future development. Construction, civil infrastructure maintenance and building occupancy in the last decades have comprised a major portion of economic production, energy consumption and carbon emissions. Integrating biological organisms into automated construction tasks and permanent building components therefore has high potential for impact. Live materials can provide several advantages over standard synthetic construction materials, including self-repair of damage, increase rather than degradation of structural performance over time, resilience to corrosive environments, support of biodiversity, and mitigation of urban heat islands. Here, we review relevant technologies, which are currently disparate. They span robotics, self-organizing systems, artificial life, construction automation, structural engineering, architecture, bioengineering, biomaterials, and molecular and cellular biology. In these disciplines, developments relevant to biohybrid construction and living buildings are in the early stages, and typically are not exchanged between disciplines. We, therefore, consider this review useful to the future development of biohybrid engineering for this highly interdisciplinary application.

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More information

Accepted/In Press date: 2 July 2019
e-pub ahead of print date: 26 July 2019
Published date: July 2019
Learn more about Agents, Interactions and Complexity research

Identifiers

Local EPrints ID: 473509
URI: http://eprints.soton.ac.uk/id/eprint/473509
DOI: doi:10.1098/rsif.2019.0238
ISSN: 1742-5689
PURE UUID: b5a6928b-16bb-41ef-9e45-f3c3c54b4bcc
ORCID for Mohammad Divband Soorati: ORCID iD orcid.org/0000-0001-6954-1284

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Date deposited: 20 Jan 2023 18:05
Last modified: 17 Mar 2024 03:57

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Contributors

Author: Mary Katherine Heinrich
Author: Sebastian von Mammen
Author: Daniel Nicolas Hofstadler
Author: Mostafa Wahby
Author: Payam Zahadat
Author: Tomasz Skrzypczak
Author: Mohammad Divband Soorati ORCID iD
Author: Rafał Krela
Author: Wojciech Kwiatkowski
Author: Thomas Schmickl
Author: Phil Ayres
Author: Kasper Stoy
Author: Heiko Hamann

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