odel-Based Systems Engineering (MBSE) is increasingly being explored in the Ar-chitecture, Engineering, and Construction (AEC) industry to reduce system complexi-ty, improve requirement management, and enhance interdisciplinary collaboration. This study examines the applicability of MBSE to structural bridge monitoring sys-tems by evaluating multiple MBSE methodologies before selecting MagicGrid as the most suitable framework. MagicGrid was chosen for its structured system decompo-sition, strong requirement traceability, and seamless alignment with SysML modeling best practices. The research employs Cameo Systems Modeler to implement a systematic work-flow, beginning with stakeholder need identification and system requirement defini-tion, progressing to logical system architecture modeling. SysML diagrams, including Requirement Diagrams, Block Definition Diagrams (BDDs), Internal Block Diagrams (IBDs), and Activity Diagrams, were used to ensure system consistency and multi-disciplinary integration. The study highlights how MBSE facilitates requirement-driven development and scalable system modeling for large-scale infrastructure projects. While the study successfully demonstrates MBSE’s applicability to AEC, several chal-lenges were identified, including adapting MBSE workflows to construction industry practices, integrating with existing BIM tools, and the steep learning curve associated with MBSE adoption. Additionally, the research serves as a conceptual proof of con-cept, with further validation needed through real-world implementation. Overall, the findings indicate that MBSE provides a structured and scalable approach to manag-ing complexity in AEC projects, particularly in structural monitoring systems, and can potentially improve efficiency, risk mitigation, and cross-disciplinary collaboration in infrastructure development.     «

odel-Based Systems Engineering (MBSE) is increasingly being explored in the Ar-chitecture, Engineering, and Construction (AEC) industry to reduce system complexi-ty, improve requirement management, and enhance interdisciplinary collaboration. This study examines the applicability of MBSE to structural bridge monitoring sys-tems by evaluating multiple MBSE methodologies before selecting MagicGrid as the most suitable framework. MagicGrid was chosen for its structured system decompo-sition, strong...     »