Aluminum formwork systems (AFS), which originated in the United States in 1962, have gained significant popularity due to their numerous advantages, including short construction cycles, cost-effectiveness, and convenient assembly. Currently, AFS also can mitigate labor shortages and lower carbon emissions. Despite these benefits, the precise layout planning of AFS requires substantial manpower and time, so it needs to be automated. However, current research and commercial software solutions are semi-automatic, and fully automated solutions are limited and not integrated with Building Information Modeling (BIM) technologies. Because BIM can provide better formwork construction management and sequence simulation, this study proposes a BIM-based approach for automating layout planning of Aluminum Formwork System (AFS) on common reinforced concrete buildings, including beams, columns, walls, and slabs with an orthogonal polygon. The BIM-based approach comprises five steps: (1) Corner Panel Initial Placement, (2) Flat Panel Generation, (3) Issue Detection, (4) Refinement, and (5) Corner Panel Generation to ensure that the planning results are reasonable, flawless, and practical. The proposed approach is validated through a real case study with a 3130 m² formwork area, demonstrating an 88% time saving compared to manual planning while maintaining a similar percentage of the standard panel area. In conclusion, this thesis provides a BIM-based approach that can automatically generate reasonable AFS layout planning, saving time in AFS layout planning.