Optimum design of 3D reinforced concrete frames using IPGO algorithm

Kaveh, A.; Ardebili, Shaylin Rezazadeh

doi:10.1016/j.istruc.2023.01.071

Cited by 8 publications

(2 citation statements)

References 28 publications

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“…Pham, TD, et al, employed algorithms to rank each design within a swarm for the optimal design of precast beams, leveraging probabilistic natural selection [12]. Kaveh, A., et al, explored meta-heuristic algorithms for benchmark testing of steel frames and enhanced the design of 3D multilayered reinforced concrete (RC) structures using an advanced plasma generation optimization algorithm (IPGO) and applied the Lion Pride Optimization Algorithm (LPOA) to the optimal design of double-layered barrel vaults [13][14][15]. Daryan, AS, et al, introduced an innovative dolphin echolocation (DE) and bat optimization algorithm to develop a viable method for optimizing the design of steel plate shear wall frames [16].…”

Section: Introductionmentioning

confidence: 99%

Enhancing transmission type frame structures: A BBO algorithm-based integrated design approach

Yang,

Wang

2024

PLoS ONE

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The stable and site-specific operation of transmission lines is a crucial safeguard for grid functionality. This study introduces a comprehensive optimization design method for transmission line crossing frame structures based on the Biogeography-Based Optimization (BBO) algorithm, which integrates size, shape, and topology optimization. By utilizing the BBO algorithm to optimize the truss structure’s design variables, the method ensures the structure’s economic and practical viability while enhancing its performance. The optimization process is validated through finite element analysis, confirming the optimized structure’s compliance with strength, stiffness, and stability requirements. The results demonstrate that the integrated design of size, shape, and topology optimization, as opposed to individual optimizations of size or shape and topology, yields the lightest structure mass and a maximum stress of 151.4 MPa under construction conditions. These findings also satisfy the criteria for strength, stiffness, and stability, verifying the method’s feasibility, effectiveness, and practicality. This approach surpasses traditional optimization methods, offering a more effective solution for complex structural optimization challenges, thereby enhancing the sustainable utilization of structures.

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Section: Introductionmentioning

confidence: 99%

Enhancing transmission type frame structures: A BBO algorithm-based integrated design approach

Yang,

Wang

2024

PLoS ONE

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“…Aslay and Dede [36] presented the optimization of a real-world reinforced concrete structure with MATLAB-ETABS-OAPI integration with Jaya algorithm. Kaveh and Rezazadeh Ardebili [37] Kaveh and Behnam [38], Kaveh and Sabzi [39] performed the optimization of 2D and 3D reinforced concrete frames using different metaheuristic algorithms.…”

Section: Introductionmentioning

confidence: 99%

Integrated Design Optimization Process for Building Projects

Aslay,

Dede,

Kaveh

2024

Period. Polytech. Civil Eng.

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In this study, a cost-design optimization is conducted for a reinforced concrete structure with irregular voids and inclined axes, which is a real-world application. Data transfers are performed on a 3D model to achieve the optimization. Data exchange is managed automatically by the created software program. As an application example, a hospital building with 10 beds is considered. Optimum design and minimum cost values are obtained for optimization processes using the Rao algorithms. The construction cost values are compared both among algorithms and with actual cost values, indicating a successful optimization process. The software program developed in this study accelerates the processes in optimization operations, thereby contributing to the realization of automatic data transfers.

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Design Weight Minimization of a Reinforced Concrete Beam Through Genetic Algorithm and Its Variants

Tunca

Çarbaş

2023

Springer Tracts in Nature-Inspired Computing

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Optimum design of 3D reinforced concrete frames using IPGO algorithm

Cited by 8 publications

References 28 publications

Enhancing transmission type frame structures: A BBO algorithm-based integrated design approach

Enhancing transmission type frame structures: A BBO algorithm-based integrated design approach

Integrated Design Optimization Process for Building Projects

Design Weight Minimization of a Reinforced Concrete Beam Through Genetic Algorithm and Its Variants

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