Difference between revisions of "Shared:Rhizome2References"
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Climate-Resilient Robotic Facades: Architectural Strategies to Improve Thermal Comfort in Outdoor Urban Environments using Robotic Assembly | Climate-Resilient Robotic Facades: Architectural Strategies to Improve Thermal Comfort in Outdoor Urban Environments using Robotic Assembly | ||
[https://www.frontiersin.org/articles/10.3389/fbuil.2022.856871/full] | [https://www.frontiersin.org/articles/10.3389/fbuil.2022.856871/full] | ||
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Revision as of 09:29, 25 October 2023
Rhizome 2.0: Scaling-up Capability of Human-Robot Interaction Supported Approaches for Robotically 3D-printing Extraterrestrial Habitats
References
1. Printing with cement-less concrete
Coppola et al, Binder Alternative to Portland Cement and waste management for sustainable construction, 2018 [1]
Dada, Influence of temperature on the rheological behaviour of eco-mortar, 2021 [2]
Djobo et al, Volcanic ash-based geopolymer cements/concretes: the current state of the art and perspectives. Environ Sci Pollut Res 24, 4433–4446 (2017). [3]
Liu et al, In-situ resources for infrastructure construction on Mars: A review, 2021 [4]
Nazneen et al, Geopolymer: A potential alternative binder for the sustainable development of concrete without ordinary Portland cement. Journal of Industrial Pollution Con-trol, 2017, pages 1500-1504. [5]
Schiavone et al, Pozzolan Based 3D Printing Composites From the Formulation, 2020 [6]
The Schumacher centre, Alternatives to Portland Cement [7]
2. In Situ Printing and (AI & HRI supported) in situ assembly of 3D printed components
NASA 3D Printed Habitat Challenge: Hassell Studio [8]
Overview In-Situ 3D Printing References: In-Situ 3D Printing References
ISRU-BASED ROBOTIC CONSTRUCTION TECHNOLOGIES FOR LUNAR AND MARTIAN INFRASTRUCTURES [9]
3. (AI supported) Environment Control
Climate-Resilient Robotic Facades: Architectural Strategies to Improve Thermal Comfort in Outdoor Urban Environments using Robotic Assembly [10]
CV- and AI-supported Applications in CS and UF
