Realistic structural stabilization based on spatial zoning

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Abstract

An automated stabilization procedure for structural designs is presented and applied in conjunction with a building spatial zoning algorithm. The stabilization procedure can stabilize kinematic systems in a building’s structural design model while taking into account structurally relevant zones within that building’s spatial design. A case study shows that the presented stabilization procedure, compared to an existing stabilization technique, can find stiffer and more practical structural designs that are less sensitive to progressive collapse.
Original languageEnglish
Title of host publication26th International Workshop on Intelligent Computing in Engineering
EditorsPhilipp Geyer, Karen Allacker, Mattias Schevenels, Frank de Troyer, Pieter Pauwels
Place of PublicationLeuven
PublisherKatholieke Universiteit Leuven
Number of pages10
Publication statusPublished - 3 Jul 2019
Event26th International Workshop on Intelligent Computing in Engineering - KU Leuven, Leuven, Belgium
Duration: 30 Jun 20193 Jul 2019
Conference number: 26
http://eg-ice2019.architectuur.kuleuven.be/

Publication series

NameCEUR Workshop Proceedings
PublisherCEUR-WS.org
Volume2394
ISSN (Electronic)1613-0073

Conference

Conference26th International Workshop on Intelligent Computing in Engineering
Abbreviated titleEG-ICE 2019
CountryBelgium
CityLeuven
Period30/06/193/07/19
Internet address

Keywords

  • Structural Stabilization
  • Spatial Zoning
  • Building Design
  • Structural Design

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  • Cite this

    Boonstra, S., Claessens, D. P. H., Hofmeyer, H., & de Vries, B. (2019). Realistic structural stabilization based on spatial zoning. In P. Geyer, K. Allacker, M. Schevenels, F. de Troyer, & P. Pauwels (Eds.), 26th International Workshop on Intelligent Computing in Engineering [15] (CEUR Workshop Proceedings; Vol. 2394). Katholieke Universiteit Leuven. http://ceur-ws.org/Vol-2394/