Abstract

Selecting an efficient structural system during the conceptual design of bridge projects is an essential requirement for the project’s success and fulfilling stakeholders’ expectations. This process involves evaluating a broad range of objective and subjective requirements based on multiple technical criteria. Despite its importance, current literature lacks a structured methodology for assisting designers in the selection process of the bridge structural system. Therefore, this research aims to develop a selection model to facilitate the decision-making process, helping evaluate different bridge structural systems during the conceptual design phase. The primary goal is to choose the most optimal design that aligns with both the client’s needs and technical specifications. The proposed methodology begins by identifying client needs and finding their relative importance using an Analytic Hierarchy Process (AHP) questionnaire, followed by determining the technical requirements in bridge conceptual design. A Quality Function Deployment (QFD) model is developed to evaluate bridge structural systems. The main advantage of integrating QFD and AHP is that it reduces the inconsistency and uncertainty in the QFD inputs. The methodology is implemented in a real case study of a bridge project in the United Arab Emirates (UAE), demonstrating improved results in structural system selection compared to traditional methods. While this research focused on the conceptual design phase of bridge projects, future work could extend to other phases of design.

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