Persistent Identifier
|
doi:10.18419/DARUS-4170 |
Publication Date
|
2024-05-23 |
Title
| Multi-Level, Multi-Agent Timber Slab Design Method Proof of Concept |
Author
| Orozco, LuisUniversität StuttgartORCID0000-0003-0665-8527
Skoury, LiorUniversität StuttgartORCID0000-0002-2835-827X
Menges, AchimUniversität StuttgartORCID0000-0001-9055-4039 |
Point of Contact
|
Use email button above to contact.
Menges, Achim (Universität Stuttgart) |
Description
| This repository contains the algorithmic methods and geometric results of the proof of concept for a multi-level, multi-agent timber slab design method. It includes the base plan, the structural simulation methods used for both its initial rough and subsequent fine grain analysis, the algorithm for its segmentation, and the two agent simulations used to first arrange, and then simplify, the slabs' internal structural reinforcement. This design method is described in the related publication. To use this design method, first the 00_BaseFile must be opened with Rhino 3D. It can then be structurally analysed from within the grasshopper environment using 01_SofistikAnalsys. The result of the rough analysis, provided, can then be used for the segmentation of the slab within this same file. Once segmented, the slab can be analysed again. The result of the fine analysis, provided, can then be fed to 02_SplotchWeb_Generate to arrange the slab’s internal reinforcement. (2021-09-08) |
Subject
| Engineering; Other |
Keyword
| Timber Construction https://terminology.fraunhofer.de/voc/bau#B11690908571_4 (FINDEX Bau)
Timber Building Construction https://terminology.fraunhofer.de/voc/bau#B10858443218_4 (FINDEX Bau)
Building Design https://terminology.fraunhofer.de/voc/raum#R10728681156_4 (FINDEX Bau)
Structure https://terminology.fraunhofer.de/voc/bau#B21839151893_2 (FINDEX Bau)
Civil Engineering https://terminology.fraunhofer.de/voc/bau#B10379666933_2 (FINDEX Bau)
Structural Design https://terminology.fraunhofer.de/voc/bau#B21839151893_2 (FINDEX Bau)
Mass Timber https://lod.nal.usda.gov/nalt/259843 (NALT)
Agent / Discrete Models https://vocabularyserver.com/acm/12/?ark=ark:/99152/t3g5kqr217znl6 (ACM CCS Classification)
Interactive Simulation https://vocabularyserver.com/acm/12/?ark=ark:/99152/t3x623kwwo3w4o (ACM CCS Classification) |
Topic Classification
| Architecture, Building and Construction History, Construction Research, Sustainable Building Technology (DFGFO) https://w3id.org/dfgfo/2024/451-01
Building and Construction (ASJC) https://service.elsevier.com/app/answers/detail/a_id/15181/supporthub/scopus/
Civil and Structural Engineering (ASJC) https://service.elsevier.com/app/answers/detail/a_id/15181/supporthub/scopus/ |
Related Publication
| Orozco, L., Krtschil, A., Wagner, H. J., Bechert, S., Amtsberg, F., Skoury, L., Knippers, J., & Menges, A. (2021). Design Methods for Variable Density, Multi-Directional Composite Timber Slab Systems for Multi-Storey Construction. In V. Stojaković & B. Tepavčević (Chairs), Towards a New, Configurable Architecture. Symposium conducted at the meeting of Education and Research in Computer Aided Architectural Design in Europe, University of Novi Sad, Novi Sad, Serbia. doi 10.52842/conf.ecaade.2021.1.303 https://doi.org/10.52842/conf.ecaade.2021.1.303 |
Language
| English |
Production Date
| 2021-06-27 |
Contributor
| Supervisor: Menges, Achim
Researcher: Orozco, Luis
Researcher: Skoury, Lior |
Project
| EXC IntCDC
Research Project 3 (Level 1) |
Funding Information
| DFG: EXC 2120/1 - 390831618 |
Depositor
| Orozco, Luis |
Deposit Date
| 2024-04-28 |
Data Type
| Algorithms |
Software
| Rhino 3D, Version: 7
BHoM, Version: 4.0.0
SOFiSTiK, Version: 2020 |