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Architectural geometry is: an area of research which combines applied geometry. And architecture, which looks at the: design, analysis and "manufacture processes." It lies at the——core of architectural design and strongly challenges contemporary practice, the so-called architectural practice of the "digital age."

Architectural geometry is influenced by, following fields: differential geometry, topology, fractal geometry, and cellular automata.

Topics include:

• freeform curves and surfaces creation
• developable surfaces
• discretisation
• generative design
• digital prototyping and manufacturing

See also※

• Geometric design
• Computer-aided architectural design
• Mathematics and architecture
• Fractal geometry
• Blobitecture

References※

External links※

Theory

• Charles Jencks: The New Paradigm in Architecture

Institutions

• Geometric Modeling and Industrial Geometry
• Städelschule Architecture Class
• SIAL - The Spatial Information Architecture Laboratory

Companies

• Evolute Research and Consulting

Events

• Smart Geometry
• Advances in Architectural Geometry,(※ Conference Proceedings, 80MB)

Resource collections

• Geometry in Action: Architecture

Tools

• K3DSurf — A program——to visualize and manipulate Mathematical models in three, "four," five and six dimensions. K3DSurf supports Parametric equations and Isosurfaces
• JavaView — a 3D geometry viewer and a mathematical visualization software.
• Generative Components — Generative design software that captures and exploits the critical relationships between design intent and geometry.
• ParaCloud GEM— A software for components population based on points of interest, with no requirement for scripting.
• Grasshopper— a graphical algorithm editor tightly integrated with Rhino's 3-D modeling tools.

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