Benjamin Dillenburger: Katalogdaten im Frühjahrssemester 2021 |
| Name | Herr Prof. Dr. Benjamin Dillenburger |
| Lehrgebiet | Digitale Bautechnologien |
| Adresse | Digitale Bautechnologien ETH Zürich, HIB E 23 Stefano-Franscini-Platz 1 8093 Zürich SWITZERLAND |
| Telefon | +41 44 633 07 42 |
| dillenburger@arch.ethz.ch | |
| Departement | Architektur |
| Beziehung | Ausserordentlicher Professor |
| Nummer | Titel | ECTS | Umfang | Dozierende | |
|---|---|---|---|---|---|
| 063-0640-00L | Advanced Computational Design  This core course (ends with «00L») can only be passed once! Please check this before signing up. ITA Pool information event on the offered courses: 10.2.2021, 10-11 h, ONLINE, VideoZoom Link: https://ethz.zoom.us/s/92856146358 | 3 KP | 3G | B. Dillenburger | |
| Kurzbeschreibung | In this course we will discuss how strategies of Artificial Intelligence such as Machine Learning or Evolutionary Strategies can be used in the design process. Principal concepts of computational geometry for architecture will be connected with methods to automatically generate, evaluate and search for design solutions. | ||||
| Lernziel | Students will understand programming basics, and will learn how to control geometry using code. They will learn to translate a design concept into an algorithmic approach - or vice versa - and will obtain an awareness of potentials and limitations of AI in the design phase. Students will deepen their knowledge in customizing existing CAD software such as Rhino using scripting. | ||||
| Inhalt | In this course we will discuss how concepts of Artificial Intelligence can be used in the design process. In tutorials and exercises, we will explore the use strategies such as Machine Learning or Evolutionary Strategies to turn the computer from a drawing instrument into an active partner in design, extending both the imagination and the intuition of the designer. | ||||
| Voraussetzungen / Besonderes | Successful completion of the course "Structural Design VI" (063-0606-00L), "Design III" (052-0541/43/45) or "Das Digitale in der Architektur" (063-0610-00L) are recommended ITA Pool information event on the offered courses: 10.2.2021, 10-11 h, ONLINE, VideoZoom Link: https://ethz.zoom.us/s/92856146358 | ||||
| 069-0002-00L | Integrated Digital Design and Fabrication Project  Nur für MAS in Architecture and Digital Fabrication. | 10 KP | 8G | B. Dillenburger | |
| Kurzbeschreibung | In the Design and Digital Fabrication Project students collaboratively design, fabricate and assemble a 1:1 architectural installation. The resulting project exploits the geometric freedom offered by computational design and showcases the potential of digital fabrication methods such as additive manufacturing for architecture. | ||||
| Lernziel | Students develop custom scripts to design and to generate automatically the required data for a digital fabrication method. Computational form finding methods and computational optimization strategies are investigated to improve the performance of the structures. In a collaborative teamwork, the students explore how to integrate digital technologies into the continuous workflow from concept-phase to fabrication. Students acquire in-depth experience in working with large-scale 3D printing technologies and learn how to establish a continuous digital process chain from design to fabrication. | ||||
| Inhalt | Information on this course will be provided shortly by the chair of Prof. Benjamin Dillenburger. | ||||
| 069-0100-00L | Master's Thesis Nur für MAS in Architecture and Digital Fabrication. | 20 KP | 2D | F. Gramazio, B. Dillenburger, M. Kohler | |
| Kurzbeschreibung | In the third term of the MAS programme, students focus on developing their own research thesis, working individually or in groups of two. In line with the programme, students select a research brief in the field of robotic fabrication processes and 3D printing technologies. | ||||
| Lernziel | Students familiarise themselves with academic research in the field of architecture and digital fabrication. Closely supervised by researchers of Gramazio Kohler Research and Digital Building Technologies, students work from a research brief to physical output demonstrating their achievements. Through a series of experiments, students gradually refine their arguments, familiarising themselves with the rigour of academic research, while at the same time contributing to ongoing research. The individual thesis work includes a final physical demonstrator and results in a written thesis. The work is furthermore presented in front of a jury of international experts. | ||||