Affiliation:
1. Graduate Program of Applied Informatics, University of Fortaleza, Fortaleza 60811-905, Brazil
Abstract
The decision regarding which slab type should be used in a building is generally made by the structural engineer, considering structural efficiency and compatibility with the architectural design, as well as the costs related to the amount of material used in each option. Because of the technical responsibilities inherent to this specialty, the decision-making process neglects to encompass various other factors of consequence that influence the construction process. These considerations include productivity, the visual and aesthetic characteristics of the slab, waste generation, and thermal and acoustic comfort. This paper aims to develop a multicriteria method to assist stakeholders in selecting the most suitable structural system for slabs based on project needs and objectives. The study utilized the Analytic Hierarchy Process (AHP) and information from bibliographic research, expert opinion using the Delphi Method, and machine learning on a dataset of over 2000 previously constructed slabs to achieve this goal. The analysis showed that the conventional solid slab type was the top priority, followed by the two-way waffle slab, one-way waffle slab, solid flat slab, and waffle slab. Additionally, the proposed AHP method was effective in developing a decision-making model for companies and the construction sector.
Funder
National Council for Technological and Scientific Development
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference36 articles.
1. Giongo, J.S. (2005). Concreto Armado: Projeto Estrutural de Edifícios, EESC/SET.
2. Sustainability-Related Decision Making in Industrial Buildings: An AHP analysis;Cuadrado;Math. Probl. Eng.,2015
3. Lee, D., Lee, D., Lee, M., Kim, M., and Kim, T. (2020). Analytic Hierarchy Process-Based Construction Material Selection for Performance Improvement of Building Construction: The case of a concrete system form. Materials, 13.
4. Design Optimization of Structural–Acoustic Spanning Concrete Elements in Buildings;Broyles;J. Archit. Eng.,2022
5. Software Development for Optimal Design of Different Precast Slabs;Noorzaei;Pertanika J. Sci. Technol.,2009