dr. M. Rajabali Nejad (Mohammad)

Universitair docent


System Of Systems
Monte Carlo Methods


Rajabalinejad, M. (2018). Incorporation of Safety into Design Process: A Systems Engineering Perspective. 1366-1368. Paper presented at 20th International Conference on Safety and Systems Engineering, ICSSE 2018, Paris, France.
Rajabalinejad, M. (2017). Naive Fault Tree: formulation of the approach. Paper presented at 35th International System Safety Conference, ISSC 2017, Albuquerque, United States.
Rajabali Nejad, M., & Bonnema, G. M. (2016). AMDesigner: An architecture modeling tool for the use in multi-disciplinary design projects. In L. Walls, M. Revie, & T. Bedford (Eds.), Risk, Reliability and Safety: Innovating Theory and Practice: Proceedings of ESREL 2016 (pp. 2391-2395). Glasgow, Scotland: CRC Press.
Rajabali Nejad, M. (2016). Coping with System Hazards in Early Project Life Cycle: Identification and Prioritization. In PESARO 2016 : The Sixth International Conference on Performance, Safety and Robustness in Complex Systems and Applications (pp. -). Lisbon: IARIA.
Rajabali Nejad, M. (2016). Modelling and Prioritization of System Risks in Early Project Phases. International journal on advances in telecommunications, 9(3&4), 68-76.
Rajabalinejad, M. (2016). An architecture model for communication of safety in public transportation. In I. Horváth, J-P. Pernot, & Z. Rusák (Eds.), Tools and Methods of Competitive Engineering: Proceedings of TMCE 2016, May 9-13, 2016, Aix-en-Provence, France (pp. 257-264). Technical University Delft (TUD).
Rajabali Nejad, M. (2016). Naive fault trees. Paper presented at 1st International Cross-Industry Safety Conference (ICSC), Amsterdam, Netherlands.
Schuitemaker, K., Braakhuis, J. G., & Rajabali Nejad, M. (2015). A model based safety architecture framwork for Dutch high speed train lines. In Proceedings 10th International Conference on System of Systems Engineering (SoSe) (pp. -). San Antonio, USA.
Bradley, J., Efatmaneshnik, M., & Rajabali Nejad, M. (2015). Toward a theory of complexity escalation and collapse for system of systems. In Unknown (pp. -). San Antonio, TX.
Rajabalinejad, M., Bonnema, G. M., & van Houten, F. J. A. M. (2015). An integral safety approach for design of high risk products and systems. In L. Podofilini, B. Sudret, B. Stojadinovic, E. Zio, & W. Kröger (Eds.), Safety and Reliability of Complex Engineered Systems: ESREL 2015 (pp. 3953-3959). CRC Press. DOI: 10.1201/b19094-518
Schuitemaker, K., Rajabali Nejad, M., & Braakhuis, J. G. (2015). Model-based safety architecture framework for complex systems. In L. Podofillini, B. Sudret, B. Stojadinovic, E. Zio, & W. Kröger (Eds.), Safety and Reliability of Complex Engineered Systems: ESREL 2015 (pp. 3611-3618). Boca Raton: CRC Press. DOI: 10.1201/b19094-475
Rajabali Nejad, M. (2015). A Framework for Requirement Elicitation, Analysis, Documentation and Prioritisation under Uncertainty. In V. Mladenov (Ed.), Unknown (pp. 162-166). East Lansing, MI: WSEAS Press.

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Universiteit Twente
Faculteit Engineering Technology
Horst - Ring (gebouwnr. 21), kamer W 250
De Horst 2
7522LW  Enschede

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Universiteit Twente
Faculteit Engineering Technology
Horst - Ring  W 250
Postbus 217
7500 AE Enschede

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