Atlas of Digital Architecture
Digital technology and architecture have become inseparable, with new approaches and methodologies not just affecting the workflows and practice of architects, but shaping the very character of architecture.
In this compendious work, two dozen university professors and lecturers share their vast range of expertise with a professional writer who assembles this into an array of engaging, episodic chapters.
Structured into six parts, the Atlas offers an orientation to the myriad ways in which computers are used in architecture today, such as: 3D Modelling and CAD; Rendering and Visualisation; Scripting, Typography, Text & Code; Digital Manufacturing and Model Making; GIS, BIM, Simulation, and Big Data & Machine Learning, to name but these.
Throughout, the Atlas provides both a historical perspective and a conceptual outlook to convey a sense of continuity between past, present, and future; and going beyond the confines of the traditional textbook, it also postulates a theoretical framework for architecture in the 21st century.
The Atlas of Digital Architecture then understands itself as an invitation to the rich feast of possibilities and professional profiles that digital technology puts on the table today, and hopes to whet the reader’s appetite for exploring and sampling their great potential.
Ludger Hovestadt, Urs Hirschberg, Oliver Fritz
Diana Alvarez-Marin, Jakob Beetz, André Borrmann, Petra von Both, Harald Gatermann, Marco Hemmerling, Ursula Kirschner, Reinhard König, Dominik Lengyel, Bob Martens, Frank Petzold, Sven Pfeiffer, Miro Roman, Kay Römer, Hans Sachs, Philipp Schaerer, Sven Schneider, Odilo Schoch, Milena Stavric, Peter Zeile, Nikolaus Zieske
Design and Layout:
Onlab (Vanja Golubovic, Matthieu Huegi, Thibaud Tissot)
Category: Graphs & Graphics
What are graphs, and how do we get from graphs in computer science to graphics, and from graphics to architectural forms? In the first of several more theoretical chapters, we examine at conceptual as well as at a granular level the logic, mathematical principles, and coding that underpin digital architecture, and walk through some examples of working with surfaces, grammars, and forms.