Title
Paris 2024: A cyclist's reinterpretation of movement at the Olympic Games
Author
Avrămiea, Emma Chris (TU Delft Architecture and the Built Environment)
Contributor
Bier, H.H. (mentor) ![ORCID 0000-0003-4652-8751 ORCID 0000-0003-4652-8751](/sites/all/themes/tud_repo3/img/icons/orcid_16x16.png)
Adema, F. (mentor)
Așut, Serdar (mentor) ![ORCID 0000-0003-1279-8913 ORCID 0000-0003-1279-8913](/sites/all/themes/tud_repo3/img/icons/orcid_16x16.png)
Degree granting institution
Delft University of Technology
Programme
Architecture, Urbanism and Building Sciences | Explorelab
Date
2022-05-30
Abstract
The current project represents the creation of space for a new paradigm in Olympic sports: the introduction of virtual cycling, enabled through the latest technologies in indoor cycling and offering the capacity to connect athletes from all over the world. On an architectural level, it challenges the white elephant phenomena, concept used to coin large Olympic stadiums that remain unused post-event due to lack of repurposing or difficulty of re-scaling. Through a small intervention on the side of the river Seine, well integrated in the Olympic Masterplan and the urban fabric of Paris, the venue will continue to be a training hub for cyclists around the city also post-Olympics.
Similar to the way an athlete trains for a competition, improving gradually each aspects of their performance, "A cyclist’s reinterpretation of movement at the Olympic Games" aims at the gradual optimization of a computational design process when confronted with the architectural program, through continuous feedback loops. The final configuration with its specific formal language, based on Voronoi diagrams, is the result of trainings, or iterations in computational design terms.
Subject
voronoi
computational design
robotic manufacturing
virtual cycling
material up-cycling
To reference this document use:
http://resolver.tudelft.nl/uuid:1a7a03fa-424c-4d10-97ea-e58490340985
Coordinates
48.861111, 2.325361
Bibliographical note
Alima N., Snooks R., McCormack J., (2022) Bio Scaffolds: the orchestration of biological growth through robotic intervention, International Journal of Intelligent Robotics and Applications Green, K.E., (2016) Architectural Robotics, MIT Press, Cambridge, Massachusetts Kariz, M., Sernek, M., Kuzman, M.K., (2016) Use of wood powder and adhesive as a mixture for 3D printing, European Journal of Wood and Wood Products, Vol. 74, No.1 Lynn, G., (1999) Animate Form, Princeton Architectural Press, New York Mistry, R., (2019) Smart Reuse of Olympic Infrastructure Could bring Home the Gold for Host Cities, Redshift Rokicki, W., Gawell E., (2016) Voronoi diagrams – architectural and structural rod structure research model optimization, Mazowsze Studia Riegionalne, no. 19 Shell B., (2020) Design Transactions: Rethinking Information Modelling for a New Material Age, UCL Press, London Wills J., (2019) The Economic Impact of Hosting the Olympics, Investopedia
Part of collection
Student theses
Document type
master thesis
Rights
© 2022 Emma Chris Avrămiea