Biography

Prof. Stefano de Miranda

Department of Civil, Chemical, Environmental, and Materials Engineering

University of Bologna, Italy



Email: [email protected]


Qualifications

2001  Ph.D., University of Bologna, Structural Mechanics

1997  M.S., University of Bologna, Civil Engineering


Publications (Selected)

  1. Lo Presti, N., D’Altri, A. M., Patruno, L., Castellazzi, G., Derluyn, H., & de Miranda, S. (2025). Multiscale simulation of salt crystallization-induced damage in porous materials. Materials and Structures, 58(6), 1-23.
  2. Lo Presti, N., Castellazzi, G., D’Altri, A. M., Bertani, G., de Miranda, S., Azenha, M., ... & Mazzotti, C. (2025). Streamlining FE and BIM modeling for historic buildings with point cloud transformation. International Journal of Architectural Heritage, 19(7), 1086-1099.
  3. Bertani, G., Patruno, L., D’Altri, A. M., Castellazzi, G., Cervera, M., & de Miranda, S. (2025). A continuum model for in-plane analysis of masonry: an approach based on failure mode classification. Meccanica, 60(7), 1983-1999.
  4. Lei, S., Cui, W., Patruno, L., de Miranda, S., Zhao, L., & Ge, Y. (2025). State augmentation method for multimode nonstationary vibrations of long-span bridges under extreme winds. Engineering Structures, 332, 120021.
  5. Szabó, S., Funari, M. F., D’Altri, A. M., de Miranda, S., & Lourenço, P. B. (2025). An optimised multi-level method for the pushover analysis of historic masonry structures accounting for the actual masonry pattern. Computers & Structures, 310, 107656.
  6. D’Altri, A. M., Pereira, M., de Miranda, S., & Glisic, B. (2025). Simulation-driven machine learning for real-time damage prognosis in masonry structures. International Journal of Mechanical Sciences, 289, 110055.
  7. Lei, S., Patruno, L., Mannini, C., de Miranda, S., & Ge, Y. (2024). Time-domain state-space model formulation of motion-induced aerodynamic forces on bridge decks. Journal of Wind Engineering and Industrial Aerodynamics, 255, 105937.
  8. Pereira, M., D'Altri, A. M., de Miranda, S., & Glisic, B. (2024). Crack pattern–based machine learning prediction of residual drift capacity in damaged masonry walls. Computer‐Aided Civil and Infrastructure Engineering, 39(24), 3685-3699.
  9. D’Altri, A. M., Vlachakis, G., de Miranda, S., & Lourenço, P. B. (2024). Rocking block simulation based on numerical dissipation. Nonlinear Dynamics, 112(20), 17843-17862.
  10. Xing, J., Patruno, L., de Miranda, S., & Ubertini, F. (2024, July). Non-stationary winds effects over large partially-open roofs: A CFD study regarding the role of unsteady aerodynamics. In Structures (Vol. 65, p. 106728). Elsevier.
  11. Xu, M., Patruno, L., & de Miranda, S. (2024). Simulation of permeable surfaces using the pressure–velocity jump approach: A lamellar screen upstream of a ground-mounted obstacle. Journal of Wind Engineering and Industrial Aerodynamics, 250, 105756.
  12. Castellazzi, G., Cardillo, E., Lo Presti, N., D’Altri, A. M., de Miranda, S., Bertani, G., ... & Mazzotti, C. (2023). Advancing cultural heritage structures conservation: Integrating BIM and cloud-based solutions for enhanced management and visualization. Heritage, 6(12), 7316-7342.
  13. Cortelli, G., Cramer, T., Patruno, L., Fraboni, B., & de Miranda, S. (2023). In Situ Nanomechanical Characterization Techniques for Soft Bioelectronic Interfaces and Their Building Blocks. Advanced Materials Technologies, 8(22), 2300931.
  14. Monteferrante, C., Cattari, S., D'Altri, A. M., Castellazzi, G., Lagormarsino, S., & De Miranda, S. (2023). An energy-based methodology to estimate the ultimate condition of complex continuous masonry structures. Engineering Failure Analysis, 151, 107370.


Profile Details

https://www.unibo.it/sitoweb/stefano.demiranda/en

https://scholar.google.com/citations?user=1zl55PQAAAAJ&hl=it

https://www.researchgate.net/profile/Stefano-Miranda-2

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