Optimal model for selection of material with low emission of indoor air pollutants

Kwon Seong-Min, Kim Byung-Soo

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

When the amount of data to be reviewed is large and the properties of the material are complex, it is difficult to make a rational decision in selecting the optimal material. Therefore, in this study, we tried to develop an optimization model that comprehensively considers user requirements, performance and economic feasibility of materials for selecting materials with low emission of indoor air pollutants. To this end, a database was constructed considering the economic feasibility by applying the concept of LCC (Life Cycle Cost) and presenting price range options that can be selected by the user. A genetic algorithm was used to construct a model to derive a material plan that could achieve the target score while satisfying economic feasibility and user requirements. As a result of model verification and verification cases, materials were selected only within the range according to the price range option and user selection criteria for each space and part. The efficiency and effectiveness of this model were confirmed. In this study, reliable results can be presented by presenting a model that can automatically select an algorithm for the optimal preferred material selection problem that is difficult for humans to solve cognitively with database construction and user selection information. Since it can be used in other fields, scalability and usability of this model are expected. In addition, it helps user to reduce the time of the material selection process and the price of materials is also considered, so that it is expected to help improve the economic feasibility of overall construction.

Original languageEnglish
Article number2545
JournalJournal of Infrastructure, Policy and Development
Volume8
Issue number1
DOIs
StatePublished - 2024

Keywords

  • economic feasibility
  • genetic algorithm
  • material selection
  • optimal preferred materials
  • user-choice-based

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