There is very little discussion about the needs of occupational health within the University area. In fact, the University is a place where interaction occurs not only for lecturers and students, but also employees, contractors and other visitors with very varied backgrounds and cultures. The lack of application of OHSMS in the construction sector in the University area causes a high number of work accidents. Making a safety plan at the initiation stage can reduce and prevent potential hazards that will occur. One of the methods can be used to reduce work accidents is by developing a safety plan using WBS (Work Breakdown Structure). This study aims to develop a WBS-based construction occupational safety and health plan for structural and architectural work buildings. This study develops a safety plan based on Regulation of Minister of PUPR No. 21 of 2019. This study uses literature study techniques for risk identification and questionnaires validation by experts with a minimum of 5 years experiences in OHS construction project. The result of this study is identification of hazards, impacts, prevention, OHS objective and programs. The results will be used for the development of a safety plan, intending to improve occupational safety and health performance and reduce occupational accidents in construction projects.

Amaya, N., Rovira, M. D., del Carro, S., Grillo, M., Nomen, R., & Sempere, J. (2019). Distributed safety management as a tool for creating a safety culture in university students and future professionals. Journal of Loss Prevention in the Process Industries, 57, 114-119.

Behm, M. (2005). Linking construction fatalities to the design for construction safety concept. Safety Science, 43(8), 589-611.

Blair, E.H., Seo, D.C., Torabi, M.R., & Kaldahl, M.A. (2004). Safety beliefs and safe behavior among midwestern college students. Journal Of Safety Research, 35, 131–140.

Chantawit, D., Hadikusumo, B. H. W., & Charoenngam, C. (2004). 4DCAD-Safety: visualizing project scheduling and safety planning. Construction Innovation, 5, 99–114.

Chiang, Y.H., Wong, F.K.W., & Liang, S. (2018). Fatal construction accidents in Hong Kong. Journal of Construction Engineering and Management, 144(3), 04017121.

Gambatese, J.A. , Behm, M. & Hinze, J.W. (2005). Viability of designing for construction worker safety. Journal of Construction Engineering and Management, 131(9).

Gong, Y. (2019). Safety culture among Chinese undergraduates: A survey at a university. Safety Science, 111, 17-21.

Han, S., Saba, F., Lee, S., Mohamed, Y., & Peña-Mora, F. (2014). Toward an understanding of the impact of production pressure on safety performance in construction operations. Accident Analysis and Prevention, 68,106–116.

Hasan, K., & Younos, T.B. (2020). Safety culture among Bangladeshi university students: A cross-sectional survey. Safety science, 131, 104922.

Herzanita, A. (2020). Development of an information system management system for safety, Occupational Health and Environment (SMK3) in the University of Indonesia area based on WEB using BIM (Building Information Modeling) and WBS (Work Breakdown Structure) to improve safety performance [Doctoral Dissertation]. Jakarta: Universitas Indonesia.

Hinze, J., Pedersen, C. & Fredley, J. (1998). Identifying root causes of construction injuries. Journal of Construction Engineering Management,124(1), 67-71.

International Labour Organization (ILO). (2013). Sustainability through a competitive and responsible enterprise (SCORE) Module 5. Jakarta: ILO.

Kamardeen, I. (2015). Fall prevention through design in construction: The benefits of mobile computing. Oxfordshire, UK: Routledge

Karim, M. A., & Hariyono, W. (2018). Implementation of occupational safety and health (OSH) at Universitas Gadjah Mada Indonesia. International E-Journal of Advances in Education, 4(10), 93-99.

Kim, Y.A., Ryoo, B.Y., Kim, Y.S., Huh, W.C. (2013). Major accident factors for effective safety management of highway construction projects. Journal of Construction Engineering and Management, 139 (6).

Lestari, F., Bowolaksono, A., Yuniautami, S., Wulandari, T. R., & Andani, S. (2019). Evaluation of the implementation of occupational health, safety, and environment management systems in higher education laboratories. Journal of Chemical Health and Safety, 26, 12-19.

Mohyi, A. (2020). The effect of emotional intelligence, organizational commitment and organizatioinal citizenship behavior on employee performance. Journal of International Conference Proceedings, 3, 84-95.

Nugroho, A. (2020). Evaluation of the implementation of the occupational safety and health management system (SMK3) at the University of Indonesia based on Government Regulation Number 50 of 2012 and ISO 45001:2018 [Master’s Thesis]. Jakarta: Universitas Indonesia.

Project Management Institute. (2017). A Guide to the projoect management body of knowledge: PMBOK guide 6th ed. Pennsylvania, USA: Project Management Institute, Inc.

Su, T.S., Hsu, I.Y. (2008). Perception towards chemical labeling for college students in Taiwan using Globally Harmonized System. Safety Science, 46, 1385–1392. https://doi.org/ 10.1016/j.ssci.2007.09.002.

Suwandari, Y.D., Amin M., & Primatama, M. A. (2021). Evaluation of building safety system aspect based on risk (case study building heritage in Jakarta. Asia Pasific Journal of Management and Education, 4(1), 66-71.

Tymvios, N., & Gambatese, J.A. (2016). Perceptions about design for construction worker safety: Viewpoints from contractors, designers, and university facility owners. Journal of Construction Engineering and Management, 142(2), 1–11.

Uloli, A.S., Akbar, M., & Kadir (2019). The influence of organizational culture, and work motivation on work discipline employees in Secretariat General of the National Resilience Council. Journal of International Conference Proceeding, 2(3), 1-4.

Venables, K. M., & Allender, S. (2007). Occupational health provision in UK universities. Occupational Medicine, 57(3), 162-168.

Walters, A.U.C., Lawrence, W., Jalsa, N.K. (2017). Chemical laboratory safety awareness, attitudes and practices of tertiary students. Safety Science, 96, 161–171. https://doi.org/10. 1016/j.ssci.2017.03.017.

Wong, L., Wang, Y., Law, T., & Lo, C.T. (2016). Association of root causes in fatal fall-from-height construction accidents in Hong Kong. Journal of Construction Engineering and Management,142(7): 04016018.

Yanar, B., Lay, M., & Smith, P. M. (2019). The interplay between supervisor safety support and occupational health and safety vulnerability on work injury. Safety and Health at Work, 10(2), 172–17.

Yi, K.J & Langford, DS. (2006). Based risk estimation and safety planning for construction projects. Journal of Construction Engineering and Management, 132(6), 626-635.