This paper discusses a set of façade design alternatives for form-finding problem focusing on conceptual phase. In this respect, the aim of the research is to propose a multi-objective optimization approach for a façade design of public pool building. We present a set of solution belonging to Self-adaptive Multi-objective Ensemble Differential Evolution (JE_DEMO) and Self-adaptive Multi-Objective Differential Evolution (JDEMO) algorithm. We focus on maximization of daylight performance and minimization of structural displacement. Based on results, two algorithms presented competitive results. Contributions are presented based on objectives functions as new trade-offs and proposed JE_DEMO algorithm for design problems.
|Title of host publication||Proceedings of the 12th International Symposium on Tools and Methods of Competitive Engineering (TMCE 2018)|
|Editors||Imre Horvath, Jose Pablo Suarez Rivero, Pedro Manuel Hernandez Castellano|
|Publisher||Delft University of Technology|
|Publication status||Published - 2018|
|Event||TMCE 2018: 12th International Symposium on Tools and Methods of Competitive Engineering - Las Palmas, Spain|
Duration: 7 May 2018 → 11 May 2018
|Conference||TMCE 2018: 12th International Symposium on Tools and Methods of Competitive Engineering|
|Period||7/05/18 → 11/05/18|
- Diagrid façade design
- Performance-based design
- Computational design
- Multi-objective optimization
- Differential evolution
Ünlü, P., Ekici, B., Chatzikonstantinou, I., Sariyildiz, S., Tasgetiren, M. F., & Çubukçuoglu, C. (2018). Diagrid Façade Design for Public Pool Building Using Differential Evolution. In I. Horvath, J. P. Suarez Rivero, & P. M. Hernandez Castellano (Eds.), Proceedings of the 12th International Symposium on Tools and Methods of Competitive Engineering (TMCE 2018) (pp. 265-274). Delft University of Technology.