Application of Surrogate Models for Building Envelope Design Exploration and Optimization

Ding Yang; Rusne Šileryte; Antonio D'Aquilio; Michela Turrin

Application of Surrogate Models for Building Envelope Design Exploration and Optimization

Ding Yang, Rusne Šileryte, Antonio D'Aquilio, Michela Turrin

Design Informatics

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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Abstract

Building performance simulations are usually timeconsuming. They may account for the major portion of time spent in Computational Design Optimization (CDO), for instance, annual hourly daylight and energy simulations. In this case, the optimization may become less efficient or even infeasible within a limited time frame of real-world projects, due to the computationally expensive simulations. To handle the problem, this research aims to investigate the potentials of surrogate models (i.e. Response Surface
Methodology - RSM) to be used in the building envelope design exploration and optimization that consider visual and energy performance. Specifically, the work investigates how, and to what extent, 1) problem scales may affect the application of RSM, and 2) different ways of using RSM may affect the quality of Pareto Front approximations. Thus, a series of multi-objective optimization tests are carried out; preliminary discussion is made based on the current results.

Original language	English
Title of host publication	Proceedings of the Symposium on Simulation for Architecture and Urban Design (simAUD 2016)
Editors	Ramtin Attar, Angelos Chronis, Sean Hanna, Michela Turrin
Publisher	simAUD
Pages	11-14
ISBN (Print)	978-1-365-05872-1
Publication status	Published - 2016
Event	SimAUD EU 2016: 7th annual Symposium on Simulation for Architecture and Urban Design - London, United Kingdom Duration: 16 May 2016 → 18 May 2016

Conference

Conference	SimAUD EU 2016: 7th annual Symposium on Simulation for Architecture and Urban Design
Country/Territory	United Kingdom
City	London
Period	16/05/16 → 18/05/16

Keywords

multi-objective optimization
building envelope
urrogate models
design of experiments (DoE)
response surface methodology (RSM)

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SimAUD2016_Final published version, 242 KB

Cite this

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title = "Application of Surrogate Models for Building Envelope Design Exploration and Optimization",

abstract = "Building performance simulations are usually timeconsuming. They may account for the major portion of time spent in Computational Design Optimization (CDO), for instance, annual hourly daylight and energy simulations. In this case, the optimization may become less efficient or even infeasible within a limited time frame of real-world projects, due to the computationally expensive simulations. To handle the problem, this research aims to investigate the potentials of surrogate models (i.e. Response SurfaceMethodology - RSM) to be used in the building envelope design exploration and optimization that consider visual and energy performance. Specifically, the work investigates how, and to what extent, 1) problem scales may affect the application of RSM, and 2) different ways of using RSM may affect the quality of Pareto Front approximations. Thus, a series of multi-objective optimization tests are carried out; preliminary discussion is made based on the current results.",

keywords = "multi-objective optimization, building envelope, urrogate models, design of experiments (DoE), response surface methodology (RSM)",

author = "Ding Yang and Rusne {\v S}ileryte and Antonio D'Aquilio and Michela Turrin",

year = "2016",

language = "English",

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booktitle = "Proceedings of the Symposium on Simulation for Architecture and Urban Design (simAUD 2016)",

publisher = "simAUD",

note = "SimAUD EU 2016: 7th annual Symposium on Simulation for Architecture and Urban Design ; Conference date: 16-05-2016 Through 18-05-2016",

}

Yang, D, Šileryte, R, D'Aquilio, A & Turrin, M 2016, Application of Surrogate Models for Building Envelope Design Exploration and Optimization. in R Attar, A Chronis, S Hanna & M Turrin (eds), Proceedings of the Symposium on Simulation for Architecture and Urban Design (simAUD 2016). simAUD, pp. 11-14, SimAUD EU 2016: 7th annual Symposium on Simulation for Architecture and Urban Design, London, United Kingdom, 16/05/16.

Application of Surrogate Models for Building Envelope Design Exploration and Optimization. / Yang, Ding; Šileryte, Rusne; D'Aquilio, Antonio et al.
Proceedings of the Symposium on Simulation for Architecture and Urban Design (simAUD 2016). ed. / Ramtin Attar; Angelos Chronis; Sean Hanna; Michela Turrin. simAUD, 2016. p. 11-14.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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AU - Šileryte, Rusne

AU - D'Aquilio, Antonio

AU - Turrin, Michela

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Y1 - 2016

N2 - Building performance simulations are usually timeconsuming. They may account for the major portion of time spent in Computational Design Optimization (CDO), for instance, annual hourly daylight and energy simulations. In this case, the optimization may become less efficient or even infeasible within a limited time frame of real-world projects, due to the computationally expensive simulations. To handle the problem, this research aims to investigate the potentials of surrogate models (i.e. Response SurfaceMethodology - RSM) to be used in the building envelope design exploration and optimization that consider visual and energy performance. Specifically, the work investigates how, and to what extent, 1) problem scales may affect the application of RSM, and 2) different ways of using RSM may affect the quality of Pareto Front approximations. Thus, a series of multi-objective optimization tests are carried out; preliminary discussion is made based on the current results.

AB - Building performance simulations are usually timeconsuming. They may account for the major portion of time spent in Computational Design Optimization (CDO), for instance, annual hourly daylight and energy simulations. In this case, the optimization may become less efficient or even infeasible within a limited time frame of real-world projects, due to the computationally expensive simulations. To handle the problem, this research aims to investigate the potentials of surrogate models (i.e. Response SurfaceMethodology - RSM) to be used in the building envelope design exploration and optimization that consider visual and energy performance. Specifically, the work investigates how, and to what extent, 1) problem scales may affect the application of RSM, and 2) different ways of using RSM may affect the quality of Pareto Front approximations. Thus, a series of multi-objective optimization tests are carried out; preliminary discussion is made based on the current results.

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KW - urrogate models

KW - design of experiments (DoE)

KW - response surface methodology (RSM)

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Y2 - 16 May 2016 through 18 May 2016

ER -

Application of Surrogate Models for Building Envelope Design Exploration and Optimization

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Keywords

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