This course explores new structural design opportunities that arise when combining graphic statics —an intuitive, equilibrium-based method for form-finding, analysis, and design of structures— with computational tools.

This course explores new structural design opportunities that arise when combining graphic statics —an intuitive, equilibrium-based method for form-finding, analysis, and design of structures— with computational tools.

This course explores new structural design opportunities that arise when combining graphic statics —an intuitive, equilibrium-based method for form-finding, analysis, and design of structures— with computational tools.

This course presents the potentials of combining graphic statics with computational tools.

This course presents the potentials of combining graphic statics with computational tools.

This course teaches the design of shell structures using computational tools with a focus on graphic statics, computational form finding and computational geometry.

This course teaches the design of shell structures using computational tools with a focus on graphic statics, computational form finding and computational geometry.

This course teaches the design of shell structures using computational tools with a focus on graphic statics, computational form finding and computational geometry.

This course teaches structurally-informed computational design and digital fabrication methods for compression-only shell structures.

This course teaches structurally-informed computational design and digital fabrication methods for compression-only shell structures.

Designing with Form and Force combines a force-based design methodology with an integrative design process. Students learn to design with force flow using tension and compression as a design language to explore structural form. This approach is applied in a semester-long project developed from concept through analysis, dimensioning, and materialization.

Structural design will be an integral part of the semester design project in the area of architecture and urbanism, and integrates knowledge acquired in the first years of Structures.

Structural design will be an integral part of the semester design project in the area of architecture and urbanism, and integrates knowledge acquired in the first years of Structures.

Implementation into architectural design of the gained structural construction knowledge, in order to find best possible and holistic solutions for a construction task.

The PhD-level course (primarily for A&T PhDs) will introduce computational methods for architecture, engineering, fabrication & construction, incentivising computational literacy. Students learn the theoretical background and basic implementation details of fundamental data structures and algorithms, and to solve real­world problems using the COMPAS framework and other open-source libraries.

The PhD-level course (primarily for A&T PhDs) will introduce computational methods for architecture, engineering, fabrication & construction, incentivising computational literacy. Students learn the theoretical background and basic implementation details of fundamental data structures and algorithms, and to solve real­world problems using the COMPAS framework and other open-source libraries.