[1] Graf, W., Sickert, J. U., Steinigen, F., "Numerical Simulation of Structures Using Generalized Models for Data Uncertainty", Computational Methods and Experimental Measurements, 2009, 8 (4), 511-521.
[2] Schuëller, G. I., "A State of the Art Report on Computational Stochastic Mmechanics", Probalistic Engineering Mechanics, 1997, 12 (4), 197-321.
[3] Muhanna, R. L., Mullen, R. L., "Uncertainty in Mechanics Problems: Interval Based Approach", Engineering Mechanics, ASCE, 2001, 127 (6), 557-566.
[4] Ben-Haim, Y., Elishakoff, I.,"Convex Models of Uncertainty in Applied Mechanics", Elsevier, Amsterdam, 1990.
[5] Kwakernaak, H., "Fuzzy Random Variables -I., Definitions and Theorems”, Information Sciences, 1978, 15 (1), 1-29.
[6] Kwakernaak, H., "Fuzzy Random Variables II, Algorithms and Examples for the Discrete Case", Information Sciences, 1979, 17 (1), 253-278.
[7] Möller, B., Beer, M., "Fuzzy Randomness - Uncertainty in Civil Engineering and Computational Mechanics", Springer Verlag, Berlin, 2004.
[8] Helton, J. C., Oberkampf, W. L., "Alternative Representations of Epistemic Uuncertainty", Reliability Engineering and System Safety, 2004, 85 (3), 1-10.
[9] Möller, B., Beer, M., "Fuzzy Structural Analysis Using α-level Optimization", Computational Mechanics, 2000, 26 (6), 547-565.
[10] Farkas, L., Moens, D., Vandepitte, W., Desmet, D., "Fuzzy
Finite Element Analysis Based on Reanalysis Technique",Structural Safety, 2010, 32 (6), 442-448.
[11] Serafinska, A., Kaliske, M., Zopf, C., Graf, W., "A Multi-Objective Optimization Approach with Consideration of Fuzzy Variables Applied to Structural Tire Design", Computers and Structures, 2013,116 (1), 9-17.
[12] Möller, B., Graf, W., Beer, M., Schneider, R., "Safety Assessment of Structures in View of Fuzzy Randomness", Computers and Structures, 2003, 81 (1), 1567-1582.
[13] Cai, K. Y., Wen, C. Y., Zhang, M. L., "Fuzzy Reliability Modeling of Gracefully Degradable Computing Systems",Reliability Engineering and System Safety, 1991, 33 (1), 141-157.
[14] Madsen, H. O., Krenk, S., Lind, N. C., "Methods of Structural Safety", Dover Publications, New York, 2006.
[15] Nowak, A. S., Collins, K. R., "Reliability of Structures", McGraw-Hill, 2000.
[16] Hasofer, A. M., Lind, N. C., "Exact and Invariant Second-Moment Code Format. Engineering Mechanics",1974, 100 (1), 111-121.
[17] Zhao, Y. G., Ono, T., "Moment Methods for Structural Reliability", Structural Safety 2001, 23 (1), 47-75.
[18] Rashki, M., Miri, M., Azhdary Moghaddam, M., "A New Efficient Simulation Method to Approximate the Probability of Failure and Most Probable Point", Structural Safety, 2012, 39 (1), 22-29.
[20] Timothy, J. R., "Fuzzy Logic with Engineering Applications", Wiley, 3rd Edition, 2010.
[21] Zhao, Y. G., HuiLu, Z., "Fourth-Moment Standardization for Structural Reliability Assessment", Structural Engineering, 2007, 133 (7), 916-924.
[22] Wang, L., Grandhi, R. V., "Efficient Safety Index Calculation for Structural Reliability Analysis", Computers and Structures, 1994, 52 (1), 103-111.