Generated Lamella

Martin Tamke; Jacob Riiber; Hauke Jungjohann

Generated Lamella

Martin Tamke, Jacob Riiber, Hauke Jungjohann

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

Abstract

The hierarchical organization of information is dominant in the setup of tectonic structures. In order to overcome the inherent limitations of these systems, self-organization is proposed as a means for future design. The paper exemplifies this within the research project “Lamella Flock”. The research takes its point of departure in the structural abilities of the wooden Zollinger system: a traditional structural lamella system distributed as a woven pattern of interconnected beams. Where the original system has a very limited set of achievable geometries our research introduces an understanding of beam elements as autonomous entities with sensorymotor behaviour. By this means freeform structures can be achieved Through computation and methods of self-organization, the project investigates how to design and build with a system based on multiple and circular dependencies. Hereby the agent system negotiates between design intent, tectonic needs, and production. The project demonstrates how real-time interactive modeling can be hybridized with agent–based design strategies and how this environment can be linked to physical production. The use of knowledge embedded into the system as well as the flow of information between dynamic processes, Finite Element Calculation and machinery was key for
inking the speculative with the physical.

Originalsprog	Engelsk
Titel	LIFE in: formation. On responsive information and variations in architecture : Proceedings of the 30th Annual Conference of the Association for Computer Aided Design in Architecture, ACADIA
Antal sider	8
Forlag	ACADIA
Publikationsdato	2010
Sider	340-347
ISBN (Trykt)	9781450734714
Status	Udgivet - 2010
Begivenhed	ACADIA 2010 - New York, USA Varighed: 21 okt. 2010 → 24 okt. 2010

Konference

Konference	ACADIA 2010
Land/Område	USA
By	New York
Periode	21/10/2010 → 24/10/2010

Kunstnerisk udviklingsvirksomhed (KUV)

Nej

Adgang til dokumentet

http://papers.cumincad.org/data/works/att/acadia10_340.content.pdf

ACADIA 2010
Martin Tamke (Taler)
24 okt. 2010
Aktivitet: Deltagelse i eller arrangement af en begivenhed › Organisation af og deltagelse i konference

1 Igangværende
2 Afsluttet

Parametric Wood
Tamke, M., Riiber, J., Rokkjær Andersen, V., Dittberner, M., Piatke, W., Jørgensen, P., Fuglsang, P. E. & Bagger, A.
(Intern finansiering)
23/08/2007 → …
Projekter: Projekt › Andet
digital.material - exhibition
Ramsgaard Thomsen, M., Tamke, M., Ayres, P., Bech, K., Riiber, J. & Nielsen, S. A.
24/04/2010 → 23/05/2010
Projekter: Projekt › Andet
Lamella Flock
Tamke, M., Riiber, J., Nielsen, S. A., Jungjohann, H. & Gengnagel, C.
01/10/2009 → 23/05/2010
Projekter: Projekt › Andet

Citationsformater

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title = "Generated Lamella",

abstract = "The hierarchical organization of information is dominant in the setup of tectonic structures. In order to overcome the inherent limitations of these systems, self-organization is proposed as a means for future design. The paper exemplifies this within the research project “Lamella Flock”. The research takes its point of departure in the structural abilities of the wooden Zollinger system: a traditional structural lamella system distributed as a woven pattern of interconnected beams. Where the original system has a very limited set of achievable geometries our research introduces an understanding of beam elements as autonomous entities with sensorymotor behaviour. By this means freeform structures can be achieved Through computation and methods of self-organization, the project investigates how to design and build with a system based on multiple and circular dependencies. Hereby the agent system negotiates between design intent, tectonic needs, and production. The project demonstrates how real-time interactive modeling can be hybridized with agent–based design strategies and how this environment can be linked to physical production. The use of knowledge embedded into the system as well as the flow of information between dynamic processes, Finite Element Calculation and machinery was key for inking the speculative with the physical.",

author = "Martin Tamke and Jacob Riiber and Hauke Jungjohann",

year = "2010",

language = "English",

isbn = "9781450734714",

pages = "340--347",

booktitle = "LIFE in: formation. On responsive information and variations in architecture",

publisher = "ACADIA",

note = "ACADIA 2010 ; Conference date: 21-10-2010 Through 24-10-2010",

}

Tamke, M , Riiber, J & Jungjohann, H 2010, Generated Lamella. i LIFE in: formation. On responsive information and variations in architecture: Proceedings of the 30th Annual Conference of the Association for Computer Aided Design in Architecture, ACADIA. ACADIA, s. 340-347, ACADIA 2010, New York, USA, 21/10/2010. <http://papers.cumincad.org/data/works/att/acadia10_340.content.pdf>

Generated Lamella. / Tamke, Martin ; Riiber, Jacob; Jungjohann, Hauke.
LIFE in: formation. On responsive information and variations in architecture: Proceedings of the 30th Annual Conference of the Association for Computer Aided Design in Architecture, ACADIA. ACADIA, 2010. s. 340-347.

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

TY - GEN

T1 - Generated Lamella

AU - Tamke, Martin

AU - Riiber, Jacob

AU - Jungjohann, Hauke

PY - 2010

Y1 - 2010

N2 - The hierarchical organization of information is dominant in the setup of tectonic structures. In order to overcome the inherent limitations of these systems, self-organization is proposed as a means for future design. The paper exemplifies this within the research project “Lamella Flock”. The research takes its point of departure in the structural abilities of the wooden Zollinger system: a traditional structural lamella system distributed as a woven pattern of interconnected beams. Where the original system has a very limited set of achievable geometries our research introduces an understanding of beam elements as autonomous entities with sensorymotor behaviour. By this means freeform structures can be achieved Through computation and methods of self-organization, the project investigates how to design and build with a system based on multiple and circular dependencies. Hereby the agent system negotiates between design intent, tectonic needs, and production. The project demonstrates how real-time interactive modeling can be hybridized with agent–based design strategies and how this environment can be linked to physical production. The use of knowledge embedded into the system as well as the flow of information between dynamic processes, Finite Element Calculation and machinery was key for inking the speculative with the physical.

AB - The hierarchical organization of information is dominant in the setup of tectonic structures. In order to overcome the inherent limitations of these systems, self-organization is proposed as a means for future design. The paper exemplifies this within the research project “Lamella Flock”. The research takes its point of departure in the structural abilities of the wooden Zollinger system: a traditional structural lamella system distributed as a woven pattern of interconnected beams. Where the original system has a very limited set of achievable geometries our research introduces an understanding of beam elements as autonomous entities with sensorymotor behaviour. By this means freeform structures can be achieved Through computation and methods of self-organization, the project investigates how to design and build with a system based on multiple and circular dependencies. Hereby the agent system negotiates between design intent, tectonic needs, and production. The project demonstrates how real-time interactive modeling can be hybridized with agent–based design strategies and how this environment can be linked to physical production. The use of knowledge embedded into the system as well as the flow of information between dynamic processes, Finite Element Calculation and machinery was key for inking the speculative with the physical.

M3 - Article in proceedings

SN - 9781450734714

SP - 340

EP - 347

BT - LIFE in: formation. On responsive information and variations in architecture

PB - ACADIA

T2 - ACADIA 2010

Y2 - 21 October 2010 through 24 October 2010

ER -

Generated Lamella

Abstract

Konference

Kunstnerisk udviklingsvirksomhed (KUV)

Adgang til dokumentet

Aktiviteter

ACADIA 2010

Projekter

Parametric Wood

digital.material - exhibition

Lamella Flock

Citationsformater