J. Wysocki and R. Debouk
[1] United States Department of Defense, MIL-STD-882C, 1993. [2] I. Theis, J. Guldner, & R. Orend, Reliability prediction of fault tolerant automotive systems, Proc. SAE World Congress, Detroit, MI, 2000. [3] P.S. Cugnasca, M.T.C. de Andrade, & J.B.C. Junior, Fuzzy based modeling applied to reliability assessment of critical systems, Proc. IASTED Conf. on Applied Modelling and Simulation, 1999, 24–29. [4] A.K. Dinghra, Optimal apportionment of reliability and redundancy in series systems under multiple objectives, IEEE Trans.on Reliability, 41(4), 1992, 576–582. doi:10.1109/24.249589 [5] P.G. Busacca, M. Marseguerra, & E. Zio, Multiobjective optimization by genetic algorithms: Application to safety systems, Reliability Engineering and System Safety, 72, 2001, 59–74. doi:10.1016/S0951-8320(00)00109-5 [6] K. Misra & U. Sharma, An effective approach for multiple criteria redundancy optimization problems, Microelectronics and Reliability, 31(2/3), 1991, 303–321. doi:10.1016/0026-2714(91)90216-T [7] K. Misra & U. Sharma, Multi-criteria optimization for combined reliability and redundancy allocation in systems employing mixed redundancies, Microelectronics and Reliability, 31(2/3), 1991, 323–335. doi:10.1016/0026-2714(91)90217-U [8] Nuclear Regulatory Committee, NUREG 0492: Fault Tree Handbook (Washington, DC: Nuclear Regulatory Committee,1981). [9] D.C. Montgomery, Design and analysis of experiments (New York: John Wiley & Sons, 1991).
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