Geodesic dome | ScienceGate

The optimization process leading to the tessellation of the first geodesic dome structure, the first Planetarium of Jena

International Journal of Space Structures ◽

10.1177/09560599211064110 ◽

2021 ◽

pp. 095605992110641

Author(s):

Orsolya Gáspár

Keyword(s):

Exact Solution ◽

Simple Algorithm ◽

Edge Length ◽

Optimization Process ◽

Length Ratio ◽

Theoretical Studies ◽

Equal Area ◽

Geodesic Domes ◽

Dome Structure ◽

Geodesic Dome

The tessellation of the first built geodesic dome structure (the first planetarium of Jena, designed by Walther Bauersfeld, built 1922–23) has been unknown until recently. While original documentation of the tessellation has been published, the concept behind it has not been uncovered. This article presents the evolution of the final tessellation based on Bauersfeld’s hand-written notes found in the Zeiss Archives in Jena. Bauersfeld contemplated various methods of subdivision and performed detailed calculations and optimality analysis on them—preceding the theoretical studies on the tessellation of geodesic domes by almost 30 years. His key findings, relevant and comparable with later studies are highlighted. The concept of the presumably final tessellation is revealed to be the equal-area triangulation of the sphere—which has to the author’s knowledge not been considered ever since for geodesic domes. The remarkably simple algorithm applied did not result in a theoretically exact solution (well known to Bauersfeld), but as shown in this article in engineering terms it got sufficiently close. Moreover, it is concluded that the resulting tessellation excels in terms of important parameters (e.g. edge length ratio, number of different edges) compared to existing practical and theoretical solutions.

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CONSTRUCTION OF A BAMBOO GEODESIC DOME IN AN ARCHITECTURAL WORKSHOP

EDULEARN16 Proceedings ◽

10.21125/edulearn.2016.1853 ◽

2016 ◽

Author(s):

Fernando Barth ◽

Luigi Simone ◽

Andre Chaluppe ◽

Luiz Vefago

Keyword(s):

Geodesic Dome

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The geodesic dome phased array antenna for satellite control and communication - subarray design, development and demonstration

IEEE International Symposium on Phased Array Systems and Technology, 2003. ◽

10.1109/past.2003.1257017 ◽

2004 ◽

Cited By ~ 18

Author(s):

B. Tomasic ◽

J. Turtle ◽

Shiang Liu ◽

R. Schmier ◽

S. Bharj ◽

...

Keyword(s):

Phased Array ◽

Array Antenna ◽

Design Development ◽

Phased Array Antenna ◽

Satellite Control ◽

Geodesic Dome

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Design and test of geodesic dome phased array system for multi-target TT&C and communication

2016 15th International Conference on Optical Communications and Networks (ICOCN) ◽

10.1109/icocn.2016.7875855 ◽

2016 ◽

Cited By ~ 2

Author(s):

E. Guangxi ◽

Hongjun Yang

Keyword(s):

Phased Array ◽

Geodesic Dome

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Projecting Stars, Triangles and Concrete

Architectura ◽

10.1515/atc-2017-0006 ◽

2019 ◽

Vol 47 (1-2) ◽

pp. 92-114 ◽

Cited By ~ 1

Author(s):

Martino Peña Fernández-Serrano ◽

José Calvo López

Keyword(s):

20Th Century ◽

Building Construction ◽

The Other ◽

Technical Object ◽

Geodesic Domes ◽

Buckminster Fuller ◽

Scientific Technical ◽

Art And Architecture ◽

Walter Gropius ◽

Geodesic Dome

AbstractSometimes scientific-technical objects can be given an extended meaning as cultural icons and be received in art and architecture. To this end, the object must be detached from its original context and viewed from different, new perspectives.In 1922 Walter Bauersfeld constructed one of the first geodesic domes for testing projection devices in Jena. Walter Gropius and Lázló Moholy-Nagy were among the first to visit the Jena Planetarium; Moholy-Nagy received the dome in his book ›Von Material zu Architektur‹. Richard Buckminster Fuller further developed Bauersfeld’s concept from the 1940s and patented the construction principle of a geodesic dome under the name ›Building Construction‹ in 1954. His patent bears resemblances to the Bauersfeld Planetarium in Jena, which can be demonstrated by manuscripts by Bauersfeld from the Zeiss Archive in Jena. Fuller, on the other hand, also used the geodesic dome to explain his theory as Synergetic. The article traces the transformation of the technical object conceived by Bauersfeld via Moholy-Nagy and Fuller into a cultural icon of the 20th century.

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R. Buckminster Fuller, the Expo ’67 Pavilion and the Atoms for Peace Program

Leonardo ◽

10.1162/leon_a_01157 ◽

2017 ◽

Vol 50 (5) ◽

pp. 486-492

Author(s):

Rebecca Dalvesco

Keyword(s):

World War Ii ◽

Knowledge Base ◽

World War ◽

Lyndon Johnson ◽

Buckminster Fuller ◽

Expo 67 ◽

The U.S ◽

Geodesic Dome ◽

The Revolution

Since the end of World War II, the U.S. government has embraced the rhetoric of the peaceful use of the atom. Following the government’s lead, architect-designer-philosopher Richard Buckminster Fuller espoused similar ideas. Like U.S. President Lyndon Johnson and other “atoms for peace” enthusiasts, Fuller thought that the revolution then occurring in architecture was an outgrowth of the peaceful atom. And, like Johnson, Fuller believed that technology based on the atom did not just favor Americans but could be applied for the benefit of all humanity. Fuller thought atomic technology could help extend humankind’s knowledge base and thus be applied to develop better architecture. This article explains how Fuller, like politicians of the time, believed that the potential for fearful products of destruction—of war and its weaponry—could be applied for peacetime applications, particularly when designing his geodesic dome, including his Expo ’67 pavilion.

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