Design Methods for Variable Density, Multi-Directional Composite Timber Slab Systems for Multi-Story Construction

As described in the Paper: Panel Position Adjustment Behaviours (Luis, Krtschil, Wagner, et al., 2021)

Proceeding research paper for the 39th eCAADe in Novi Sad, Serbia (Education and research in Computer Aided Architectural Design in Europe) Conference from University Stuttgart and ICD/ITKE

This paper presents an agent-based method for the design of complex timber structures. This method features a multi-level agent simulation, that relies on a feedback loop between agent systems and structural simulations that update the agent environment. Such an approach can usefully be applied for the design of variable density timber slab systems, where material arrangements based on structural, fabrication, and architectural boundary conditions are necessary. Such arrangements can lead to multi-directional spanning slabs that can accept pointwise supports in unique layouts. We discuss the implementation of such a method on the basis of the structural design of a pavilion-scale multi-storey testing setup. The presented method enables a more versatile approach to the design of multi-storey timber buildings, which should increase their applicability to a diverse range of building typologies.

Abstract (

Luis, O., Krtschil, A., Wagner, H. J., Simon, B., Amtsberg, F., Skoury, L., … & Menges, A. (2021). Design Methods for Variable Density, Multi-Directional Composite Timber Slab Systems for Multi-Storey Construction.


Find Paper here: http://papers.cumincad.org/cgi-bin/works/paper/ecaade2021_284

As described in the paper: Variable Density Building System and its Components (Luis, Krtschil, Wagner, et al., 2021)