Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows.

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This paper introduces concepts and methodologies for multiscale modeling in architecture, and demonstrates their application to support bi-directional information flows in the design of a panel-ized, thin skinned metal structure. Parameters linked to the incremental sheet forming fabrication process, rigidisation, panelization, and global structural performance are included in this information flow. The term multiscale refers to the decomposition of a design problem into distinct but interdependent models according to scales or frameworks, and to the techniques that support the transfer of information between these models. We describe information flows between the scales of structure, panel element, and material via two mesh-based approaches. The first approach demonstrates the use of adaptive meshing to efficiently and sequentially increase resolution to support structural analysis, panelization, local geometric formation, connectivity, and the calculation of forming strains and material thinning. A second approach shows how dynamically coupling adaptive meshing with a tree structure supports efficient refinement and coarsening of information. The multiscale modeling approaches are substantiated through the production of structures and prototypes.
OriginalsprogEngelsk
TitelProceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) : Posthuman Frontiers: Data, Designers, and Cognitive Machines
Antal sider10
ForlagThe Association for Computer-Aided Design in Architecture
Publikationsdato2016
Sider308-317
StatusUdgivet - 2016
BegivenhedAcadia 2016 - University of Michigan Taubman College, Ann Arbor, USA
Varighed: 27 okt. 201629 okt. 2016
http://2016.acadia.org/

Konference

KonferenceAcadia 2016
Lokation University of Michigan Taubman College
LandUSA
ByAnn Arbor
Periode27/10/201629/10/2016
Internetadresse

Kunstnerisk udviklingsvirksomhed (KUV)

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Nicholas, P., Zwierzycki, M., Stasiuk, D., & Ramsgaard Thomsen, M. (2016). Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows. I Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA): Posthuman Frontiers: Data, Designers, and Cognitive Machines (s. 308-317). The Association for Computer-Aided Design in Architecture.
Nicholas, Paul ; Zwierzycki, Mateusz ; Stasiuk, David ; Ramsgaard Thomsen, Mette. / Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows. Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA): Posthuman Frontiers: Data, Designers, and Cognitive Machines. The Association for Computer-Aided Design in Architecture, 2016. s. 308-317
@inproceedings{db94a315ec9549a8be0662cf39469c07,
title = "Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows.",
abstract = "This paper introduces concepts and methodologies for multiscale modeling in architecture, and demonstrates their application to support bi-directional information flows in the design of a panel-ized, thin skinned metal structure. Parameters linked to the incremental sheet forming fabrication process, rigidisation, panelization, and global structural performance are included in this information flow. The term multiscale refers to the decomposition of a design problem into distinct but interdependent models according to scales or frameworks, and to the techniques that support the transfer of information between these models. We describe information flows between the scales of structure, panel element, and material via two mesh-based approaches. The first approach demonstrates the use of adaptive meshing to efficiently and sequentially increase resolution to support structural analysis, panelization, local geometric formation, connectivity, and the calculation of forming strains and material thinning. A second approach shows how dynamically coupling adaptive meshing with a tree structure supports efficient refinement and coarsening of information. The multiscale modeling approaches are substantiated through the production of structures and prototypes.",
author = "Paul Nicholas and Mateusz Zwierzycki and David Stasiuk and {Ramsgaard Thomsen}, Mette",
year = "2016",
language = "English",
pages = "308--317",
booktitle = "Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)",
publisher = "The Association for Computer-Aided Design in Architecture",

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Nicholas, P, Zwierzycki, M, Stasiuk, D & Ramsgaard Thomsen, M 2016, Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows. i Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA): Posthuman Frontiers: Data, Designers, and Cognitive Machines. The Association for Computer-Aided Design in Architecture, s. 308-317, Acadia 2016, Ann Arbor, USA, 27/10/2016.

Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows. / Nicholas, Paul; Zwierzycki, Mateusz; Stasiuk, David; Ramsgaard Thomsen, Mette.

Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA): Posthuman Frontiers: Data, Designers, and Cognitive Machines. The Association for Computer-Aided Design in Architecture, 2016. s. 308-317.

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningpeer review

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T1 - Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows.

AU - Nicholas, Paul

AU - Zwierzycki, Mateusz

AU - Stasiuk, David

AU - Ramsgaard Thomsen, Mette

PY - 2016

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N2 - This paper introduces concepts and methodologies for multiscale modeling in architecture, and demonstrates their application to support bi-directional information flows in the design of a panel-ized, thin skinned metal structure. Parameters linked to the incremental sheet forming fabrication process, rigidisation, panelization, and global structural performance are included in this information flow. The term multiscale refers to the decomposition of a design problem into distinct but interdependent models according to scales or frameworks, and to the techniques that support the transfer of information between these models. We describe information flows between the scales of structure, panel element, and material via two mesh-based approaches. The first approach demonstrates the use of adaptive meshing to efficiently and sequentially increase resolution to support structural analysis, panelization, local geometric formation, connectivity, and the calculation of forming strains and material thinning. A second approach shows how dynamically coupling adaptive meshing with a tree structure supports efficient refinement and coarsening of information. The multiscale modeling approaches are substantiated through the production of structures and prototypes.

AB - This paper introduces concepts and methodologies for multiscale modeling in architecture, and demonstrates their application to support bi-directional information flows in the design of a panel-ized, thin skinned metal structure. Parameters linked to the incremental sheet forming fabrication process, rigidisation, panelization, and global structural performance are included in this information flow. The term multiscale refers to the decomposition of a design problem into distinct but interdependent models according to scales or frameworks, and to the techniques that support the transfer of information between these models. We describe information flows between the scales of structure, panel element, and material via two mesh-based approaches. The first approach demonstrates the use of adaptive meshing to efficiently and sequentially increase resolution to support structural analysis, panelization, local geometric formation, connectivity, and the calculation of forming strains and material thinning. A second approach shows how dynamically coupling adaptive meshing with a tree structure supports efficient refinement and coarsening of information. The multiscale modeling approaches are substantiated through the production of structures and prototypes.

UR - https://www.researchgate.net/publication/309592505_Concepts_and_Methodologies_for_Multiscale_Modeling_A_Mesh-Based_Approach_for_Bi-Directional_Information_Flows

M3 - Article in proceedings

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BT - Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA)

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Nicholas P, Zwierzycki M, Stasiuk D, Ramsgaard Thomsen M. Concepts and Methodologies for Multi-scale Modelling: a Mesh-based Approach for Bi-directional Information Flows. I Proceedings of the 36th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA): Posthuman Frontiers: Data, Designers, and Cognitive Machines. The Association for Computer-Aided Design in Architecture. 2016. s. 308-317