Multi-zone optimisation of high-rise buildings using artificial intelligence for sustainable metropolises. Part 2: Optimisation problems, algorithms, results, and method validation

•Part 2 presents optimisation problems, algorithms, results, and method validation.•Three optimisation algorithms are employed with five replications for two scenarios.•Results are obtained in 4 days instead of 17 years using surrogate models of Part 1.•Optimised designs outperformed 8748 and 5832 r...

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Published inSolar energy Vol. 224; pp. 309 - 326
Main Authors Ekici, Berk, Kazanasmaz, Z. Tuğçe, Turrin, Michela, Taşgetiren, M. Fatih, Sariyildiz, I. Sevil
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.08.2021
Pergamon Press Inc
Subjects
Adaptive algorithms
Algorithms
Artificial intelligence
Autonomy
Building design
Building simulation
Buildings
Design optimization
Design parameters
Design standards
Environmental engineering
Floors
Glazing
Green buildings
High rise buildings
High-rise building
Leadership
Machine learning
Methodology
Optimization
Penalty function
Performance-based design
Population growth
Shading devices
Solar energy
Sustainability
Sustainable design
Urban areas
Urbanization
Performance-based design
Building simulation
Sustainability
Optimization
High-rise building
Machine learning
Online AccessGet full text
ISSN0038-092X
1471-1257
DOI10.1016/j.solener.2021.05.082

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Abstract •Part 2 presents optimisation problems, algorithms, results, and method validation.•Three optimisation algorithms are employed with five replications for two scenarios.•Results are obtained in 4 days instead of 17 years using surrogate models of Part 1.•Optimised designs outperformed 8748 and 5832 regular high-rise scenarios.•The importance, potential, and optimisation with surrogate models are discussed. High-rise building optimisation is becoming increasingly relevant owing to global population growth and urbanisation trends. Previous studies have demonstrated the potential of high-rise optimisation but have been focused on the use of the parameters of single floors for the entire design; thus, the differences related to the impact of the dense surroundings are not taken into consideration. Part 1 of this study presents a multi-zone optimisation (MUZO) methodology and surrogate models (SMs), which provide a swift and accurate prediction for the entire building design; hence, the SMs can be used for optimisation processes. Owing to the high number of parameters involved in the design process, the optimisation task remains challenging. This paper presents how MUZO can cope with an enormous number of parameters to optimise the entire design of high-rise buildings using three algorithms with an adaptive penalty function. Two design scenarios are considered for quad-grid and diagrid shading devices, glazing type, and building-shape parameters using the setup, and the SMs developed in part 1. The optimisation part of the MUZO methodology reported satisfactory results for spatial daylight autonomy and annual sunlight exposure by meeting the Leadership in Energy and Environmental Design standards in 19 of 20 optimisation problems. To validate the impact of the methodology, optimised designs were compared with 8748 and 5832 typical quad-grid and diagrid scenarios, respectively, using the same design parameters for all floor levels. The findings indicate that the MUZO methodology provides significant improvements in the optimisation of high-rise buildings in dense urban areas.
AbstractList High-rise building optimisation is becoming increasingly relevant owing to global population growth and urbanisation trends. Previous studies have demonstrated the potential of high-rise optimisation but have been focused on the use of the parameters of single floors for the entire design; thus, the differences related to the impact of the dense surroundings are not taken into consideration. Part 1 of this study presents a multi-zone optimisation (MUZO) methodology and surrogate models (SMs), which provide a swift and accurate prediction for the entire building design; hence, the SMs can be used for optimisation processes. Owing to the high number of parameters involved in the design process, the optimisation task remains challenging. This paper presents how MUZO can cope with an enormous number of parameters to optimise the entire design of high-rise buildings using three algorithms with an adaptive penalty function. Two design scenarios are considered for quad-grid and diagrid shading devices, glazing type, and building-shape parameters using the setup, and the SMs developed in part 1. The optimisation part of the MUZO methodology reported satisfactory results for spatial daylight autonomy and annual sunlight exposure by meeting the Leadership in Energy and Environmental Design standards in 19 of 20 optimisation problems. To validate the impact of the methodology, optimised designs were compared with 8748 and 5832 typical quad-grid and diagrid scenarios, respectively, using the same design parameters for all floor levels. The findings indicate that the MUZO methodology provides significant improvements in the optimisation of high-rise buildings in dense urban areas.
•Part 2 presents optimisation problems, algorithms, results, and method validation.•Three optimisation algorithms are employed with five replications for two scenarios.•Results are obtained in 4 days instead of 17 years using surrogate models of Part 1.•Optimised designs outperformed 8748 and 5832 regular high-rise scenarios.•The importance, potential, and optimisation with surrogate models are discussed. High-rise building optimisation is becoming increasingly relevant owing to global population growth and urbanisation trends. Previous studies have demonstrated the potential of high-rise optimisation but have been focused on the use of the parameters of single floors for the entire design; thus, the differences related to the impact of the dense surroundings are not taken into consideration. Part 1 of this study presents a multi-zone optimisation (MUZO) methodology and surrogate models (SMs), which provide a swift and accurate prediction for the entire building design; hence, the SMs can be used for optimisation processes. Owing to the high number of parameters involved in the design process, the optimisation task remains challenging. This paper presents how MUZO can cope with an enormous number of parameters to optimise the entire design of high-rise buildings using three algorithms with an adaptive penalty function. Two design scenarios are considered for quad-grid and diagrid shading devices, glazing type, and building-shape parameters using the setup, and the SMs developed in part 1. The optimisation part of the MUZO methodology reported satisfactory results for spatial daylight autonomy and annual sunlight exposure by meeting the Leadership in Energy and Environmental Design standards in 19 of 20 optimisation problems. To validate the impact of the methodology, optimised designs were compared with 8748 and 5832 typical quad-grid and diagrid scenarios, respectively, using the same design parameters for all floor levels. The findings indicate that the MUZO methodology provides significant improvements in the optimisation of high-rise buildings in dense urban areas.
Author Kazanasmaz, Z. Tuğçe
Turrin, Michela
Ekici, Berk
Sariyildiz, I. Sevil
Taşgetiren, M. Fatih
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Keywords Performance-based design
Building simulation
Sustainability
Optimization
High-rise building
Machine learning
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Snippet •Part 2 presents optimisation problems, algorithms, results, and method validation.•Three optimisation algorithms are employed with five replications for two...
High-rise building optimisation is becoming increasingly relevant owing to global population growth and urbanisation trends. Previous studies have demonstrated...
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StartPage 309
SubjectTerms Adaptive algorithms
Algorithms
Artificial intelligence
Autonomy
Building design
Building simulation
Buildings
Design optimization
Design parameters
Design standards
Environmental engineering
Floors
Glazing
Green buildings
High rise buildings
High-rise building
Leadership
Machine learning
Methodology
Optimization
Penalty function
Performance-based design
Population growth
Shading devices
Solar energy
Sustainability
Sustainable design
Urban areas
Urbanization
Title Multi-zone optimisation of high-rise buildings using artificial intelligence for sustainable metropolises. Part 2: Optimisation problems, algorithms, results, and method validation
URI https://dx.doi.org/10.1016/j.solener.2021.05.082
https://www.proquest.com/docview/2572613333
Volume 224
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