Shear wall layout optimization strategy for high-rise buildings based on conceptual design and data-driven tabu search

•A novel shear wall layout optimization methodology is proposed.•Conceptual design is combined to play a guiding role in the optimization.•The surrogate model is built through support vector machine for model evaluation.•Verification of the new methodology by shear wall structure optimization. The s...

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Published in:Computers & structures 2021-07, Vol.250, p.106546, Article 106546
Main Authors: Lou, Haopeng, Gao, Boqing, Jin, Fengling, Wan, Yinyuan, Wang, Yaxing
Format: Article
Language:English
Subjects:
Algorithms
Binary codes
Conceptual design
Data search
Data-driven
Design optimization
High rise buildings
Layout optimization
Layouts
Optimization
Shear wall
Shear walls
Structural weight
Support vector machines
Tabu search
Theological schools
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container_title Computers & structures
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creator Lou, Haopeng
Gao, Boqing
Jin, Fengling
Wan, Yinyuan
Wang, Yaxing
description •A novel shear wall layout optimization methodology is proposed.•Conceptual design is combined to play a guiding role in the optimization.•The surrogate model is built through support vector machine for model evaluation.•Verification of the new methodology by shear wall structure optimization. The scope of this paper is to present a novel design methodology that relies on the tabu search (TS) algorithm and aims to optimize the shear wall layout of high-rise buildings. By discretizing the distributable area of a shear wall into wall elements, different possible shear wall layouts can be described by binary code where ‘0’ and ‘1’ indicate the absence or presence of a wall element respectively. Furthermore, the conceptual design is combined with the optimization algorithm to play a guiding role in the optimization, and the surrogate model is built through support vector machine (SVM) to drive the optimization process with historical data and reduce the cost of the real model’s evaluation. Then, the structural weight can be automatically minimized with constraints on the story drift and period ratio and an optimization program with an independent interface is compiled in this paper. This method was used to optimize the layouts of different shear wall structures, which proved the feasibility and effectiveness.
doi_str_mv 10.1016/j.compstruc.2021.106546
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subjects Algorithms
Binary codes
Conceptual design
Data search
Data-driven
Design optimization
High rise buildings
Layout optimization
Layouts
Optimization
Shear wall
Shear walls
Structural weight
Support vector machines
Tabu search
Theological schools
title Shear wall layout optimization strategy for high-rise buildings based on conceptual design and data-driven tabu search
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