A multi-attribute model for construction site layout using intuitionistic fuzzy logic: Fid-Bau Portal

A multi-attribute model for construction site layout using intuitionistic fuzzy logic

Ning, Xin / Ding, L.Y. / Luo, H.B. / Qi, S.J.

Abstract Most researchers have concentrated on studying optimization models to produce optimal construction site layout plans using different algorithms, while the overall method for evaluating and selecting the best site layout generated from optimization models has received less attention. In an optimization model, construction cost is generally considered in the objective function. However, several objectives, such as security and tie-in with external transportation, are difficult to quantify in the objective function and were not considered in previous studies. This paper focuses on evaluating and selecting the construction site layout considering qualitative objectives. An intuitionistic fuzzy multi-attribute decision-making model is developed that combines intuitionistic fuzzy set theory and the technique for order preference by similarity to the ideal solution (TOPSIS). This model overcomes the shortcomings of a traditional fuzzy set when describing ambiguous and unclear circumstances by using membership functions. The application of this model for site layout selection is shown to be reasonable and effective based on data from a real construction project.

Highlights • Construction site layout planning is treated as a decision-making process. • A multi-attribute decision-making model is proposed for the site layout. • The intuitionistic fuzzy set is combined with TOPSIS for evaluation and selection. • Linear programming is used to find the attributes' weights. • Ten key qualitative attributes are identified for construction site layout evaluation.