Risk, Safety and Uncertainty Quantification

Search

en

Journal papers

2012 and earlier

  1. Berveiller, M., Le Pape, Y., Sudret, B. and Perrin, F. (2012). Updating the long-term creep strains in concrete containment vessels by using Markov chain Monte Carlo simulation and polynomial chaos expansions. Struct. Infrastruct. Eng, 8(5), pp. 425-440.
  2. Dubourg, V., Sudret, B. and Bourinet, J.-M. (2011). Reliability-based design optimization using kriging surrogates and subset simulation. Struct. Multidisc. Optim., 44(5), pp. 673-690.
  3. Blatman, G. and Sudret, B. (2011). Adaptive sparse polynomial chaos expansion based on Least Angle Regression. J. Comput. Phys., 230, pp. 2345-2367.
  4. Blatman, G. and Sudret, B. (2010). Efficient computation of global sensitivity indices using sparse polynomial chaos expansions. Reliab. Eng. Sys. Safety, 95, pp. 1216-1229.
  5. Blatman, G. and Sudret, B. (2010). An adaptive algorithm to build up sparse polynomial chaos expansions for stochastic finite element analysis. Prob. Eng. Mech., 25, pp. 183-197.
  6. Sudret, B. (2008). Analytical derivation of the outcrossing rate in time-variant reliability problems. Struct. Infrastruct. Eng, 4(5), pp. 353-362.
  7. Sudret, B. (2008). Probabilistic models for the extent of damage in degrading reinforced concrete structures. Reliab. Eng. Sys. Safety, 93, pp. 410-422.
  8. Sudret, B. (2008). Global sensitivity analysis using polynomial chaos expansions. Reliab. Eng. Sys. Safety, 93, pp. 964-979.
  9. Gaignaire, R., Clénet, S., Moreau, O. and Sudret, B. (2008). Current calculation in electrokinetics using a spectral stochastic finite element method. IEEE Transactions on Magnetics, 44(6), pp. 754-757.
  10. Blatman, G. and Sudret, B. (2008). Sparse polynomial chaos expansions and adaptive stochastic finite elements using a regression approach. Comptes Rendus Mécanique, 336(6), pp. 518-523.
  11. Guédé, Z., Sudret, B. and Lemaire, M. (2007). Life-time reliability based assessment of structures submitted to thermal fatigue. Int. J. Fatigue, 29(7), pp. 1359-1373.
  12. Blatman, G., Sudret, B. and Berveiller, M. (2007). Quasi-random numbers in stochastic finite element analysis. Mécanique & Industries, 8, pp. 289-297.
  13. Gaignaire, R., Clénet, S., Sudret, B. and Moreau, O. (2007). 3-D spectral stochastic finite element method in electromagnetism. IEEE Trans. Electromagnetism, 43(4), pp. 1209-1212.
  14. Sudret, B., Defaux, G. and Pendola, M. (2007). Stochastic evaluation of the damage length in RC beams submitted to corrosion of reinforcing steel. Civ. Eng. Envir. Sys., 24(2), pp. 165-178.
  15. Sudret, B., Berveiller, M. and Lemaire, M. (2006). A stochastic finite element procedure for moment and reliability analysis. Eur. J. Comput. Mech., 15(7-8), pp. 825-866.
  16. Defaux, G., Pendola, M. and Sudret, B. (2006). Using spatial reliability in the probabilistic study of concrete structures: the example of a reinforced concrete beam subjected to carbonatation inducing corrosion. J. Physique IV, 136, pp. 243-256. V. L'Hostis, F. Foct and D. Féron, Eds.
  17. Petre-Lazar, I., Sudret, B., Foct, F., Granger, L. and Dechaux, L. (2006). Service life estimation of the secondary containment with respect to rebar corrosion. J. Physique IV, 136, pp. 201-212. V. L'Hostis, F. Foct and D. Féron, Eds.
  18. Berveiller, M., Sudret, B. and Lemaire, M. (2006). Stochastic finite elements: a non intrusive approach by regression. Eur. J. Comput. Mech., 15(1-3), pp. 81-92.
  19. Sudret, B., Defaux, G. and Pendola, M. (2005). Time-variant finite element reliability analysis - Application to the durability of cooling towers. Structural Safety, 27, pp. 93-112.
  20. Sudret, B. and Guédé, Z. (2005). Probabilistic assessment of thermal fatigue in nuclear components. Nuc. Eng. Des., 235, pp. 1819-1835.
  21. Andrieu-Renaud, C., Sudret, B. and Lemaire, M. (2004). The PHI2 method: a way to compute time-variant reliability. Reliab. Eng. Sys. Safety, 84, pp. 75-86.
  22. Sudret, B., Berveiller, M. and Lemaire, M. (2004). A stochastic finite element method in linear mechanics. Comptes Rendus Mécanique, 332, pp. 531-537.
  23. Garnier, D., Sudret, B., Bourgeois, E. and Semblat, J.-F. (2003). Ouvrages renforcés : approche par superposition de milieux continus et traitement numérique. Revue Française de Géotechnique, 102, pp. 43-52.
  24. Sudret, B. and Der Kiureghian, A. (2002). Comparison of finite element reliability methods. Prob. Eng. Mech., 17, pp. 337-348.
  25. Sudret, B. and de Buhan, P. (2001). Multiphase model for reinforced geomaterials - Application to piled raft foundations and rock-bolted tunnels. Int. J. Num. Anal. Meth. Geomech., 25, pp. 155-182.
  26. Bourgeois, E., Garnier, D., Semblat, J.-F., Sudret, B. and Al Hallak, R. (2001). Un modèle homogénéisé pour le boulonnage du front de taille des tunnels : simulation d'essais en centrifugeuse. Revue Française de Génie Civil, 5(1), pp. 8-38.
  27. de Buhan, P. and Sudret, B. (2000). Un modèle de comportement macroscopique des matériaux renforcés par inclusions linéaires, avec prise en compte des effets de flexion. C. R. Acad. Sci. Paris, 328(Série IIb), pp. 555-560.
  28. de Buhan, P. and Sudret, B. (2000). Micropolar multiphase model for materials reinforced by linear inclusions. Eur. J. Mech. A/Solids, 19(6), pp. 669-687.
  29. de Buhan, P. and Sudret, B. (1999). A two-phase elastoplastic model for unidirectionally-reinforced materials and its numerical implementation. Eur. J. Mech. A/Solids, 18(6), pp. 995-1012.
  30. Sudret, B., Maghous, S., de Buhan, P. and Bernaud, D. (1998). Elastoplastic analysis of inclusion reinforced structures. Metals and materials, 4(3), pp. 252-255.
  31. Sudret, B. and de Buhan, P. (1999). Modélisation multiphasique de matériaux renforcés par inclusions linéaires. C. R. Acad. Sci. Paris, 327(Série IIb), pp. 7-12.
  32. Lieb, M. and Sudret, B. (1998). A fast algorithm for soil dynamics calculations by wavelet decomposition. Arch. App. Mech., 68, pp. 147-157.
JavaScript has been disabled in your browser