Safety risk control in construction engineering based on the interval analytic hierarchy process and technique for order preference by similarity to ideal solution

Abstract

To improve the safety management level of construction projects, the housing construction project was taken as the research object and the hierarchical structure model by using the improved analytic hierarchy process (IAHP) was established. Based on the four dimensions of human, material, environment, management, the 12 influencing factor evaluation indexes and 34 scoring items were designed. By the redistribution of weight, the value range of scoring items was determined, and then the construction safety management evaluation system was constructed to evaluate the project safety management. When evaluating multiple projects, if the overall evaluation conclusion is poor, the technique for order preference by similarity to an ideal solution (TOPSIS) was used to evaluate the relative advantages and disadvantages of the project by introducing reference interval (Formula presented.) [0.5,0.6]. By calculating the membership relationship between nearness degree (Formula presented.) and reference interval (Formula presented.), the decision-making method to improve the level of project safety management was given. The results show that, if (Formula presented.), need external interactive learning, if (Formula presented.), internal communication and learning can be organized. If (Formula presented.), the project safety management level can be improved by the combination of external interactive learning and internal experience exchange.