Dr. Stefano Mariani
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Dr. Stefano Mariani

Associate Professor
Politecnico di Milano, Italy

Highest Degree
Ph.D. in Structural Engineering from Politecnico di Milano, Italy

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Biography

Dr. Stefano Mariani is currently working as Associate Professor in Department of Civil and Environmental Engineering, Politecnico di Milano. He has completed his Ph.D. in Structural Engineering from same University. His main area of interest focuses on Physical Science Engineering. His area of expertise includes Solid Mechanics, Kalman and Particle Filters, Computational Mechanics, System Identification, Fracture Mechanics, MEMS (micro electromechanical systems), Micromechanics, and Structural Health Monitoring. He has more than 163 publications in journals as author/co-author.

Area of Interest:

Physical Science Engineering
100%
Ductile Fracture
62%
Quasi-Brittle Materials
90%
Parameter Identification
75%
Structural Health Monitoring
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Mirzazadeh, R., S.E. Azam and S. Mariani, 2016. Micromechanical characterization of polysilicon films through on-chip tests. Sensors, Vol. 16. 10.3390/s16081191.
    CrossRef  |  PubMed  |  Direct Link  |  
  2. Hassanabadi, M.E., N.K.A. Attari, A. Nikkhoo and S. Mariani, 2016. Resonance of a rectangular plate influenced by sequential moving masses. Coupled Syst. Mech., 5: 87-100.
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  3. Corigliano, A., F. Confalonieri, M. Dossi and S. Mariani, 2016. Coupled domain decomposition-proper orthogonal decomposition methods for the simulation of quasi-brittle fracture processes. Adv. Model. Simul. Eng. Sci., Vol. 3. 10.1186/s40323-016-0081-9.
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  4. Andena, L., A. Ciancio, F. Briatico-Vangosa, S. Mariani and A. Pavan, 2016. On the relationship between force reduction, loading rate and energy absorption in athletics tracks. J. Sports Eng. Technol., .
  5. Nikkhoo, A., A. Farazandeh, M.E. Hassanabadi and S. Mariani, 2015. Simplified modeling of beam vibrations induced by a moving mass by regression analysis. Acta Mechanica, 226: 2147-2157.
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  6. Corigliano, A., M. Dossi and S. Mariani, 2015. Model order reduction and domain decomposition strategies for the solution of the dynamic elastic-plastic structural problem. Comput. Methods Applied Mech. Eng., 290: 127-155.
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  7. Capellari, G., S.E. Azam and S. Mariani, 2015. Towards real-time health monitoring of structural systems via recursive Bayesian filtering and reduced order modelling. Int. J. Sustainable Mater. Struct. Syst., 2: 27-51.
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  8. Capellari, G., S.E. Azam and S. Mariani, 2015. Damage detection in flexible plates through reduced-order modeling and hybrid particle-kalman filtering. Sensors, Vol. 16. 10.3390/s16010002.
    CrossRef  |  PubMed  |  Direct Link  |  
  9. Andena, L., F. Briatico-Vangosa, E. Cazzoni, A. Ciancio, S. Mariani and A. Pavan, 2015. Modeling of shock absorption in athletics track surfaces. Sports Eng., 18: 1-10.
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  10. Mariani, S., F. Caimmi, M. Bruggi and P. Bendiscioli, 2014. Smart sensing of damage in flexible plates through MEMS. Int. J. Mech. Robotic Syst., 2: 67-95.
    CrossRef  |  
  11. Ghisi, A., S. Mariani, A. Corigliano, G. Allegato and L. Oggioni, 2014. A three-scale approach to the numerical simulation of metallic bonding for MEMS packaging. Microelectron. Reliab., 54: 2039-2043.
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  12. Corigliano, A., R. Ardito, C. Comi, A. Frangi, A. Ghisi and S. Mariani, 2014. Microsystems and mechanics. Procedia IUTAM, 10: 138-160.
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  13. Chiantoni, G., C. Comi, S. Mariani and N. Bonora, 2014. Experimental assessment of ductile damage in P91 steel at high temperature. Int. J. Damage Mechan., 23: 567-587.
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  14. Caimmi, F., S. Mariani, M. de Fazio and P. Bendiscioli, 2014. Investigation of the effectiveness and robustness of an mems-based structural health monitoring system for composite laminates. IEEE Sensors J., 14: 2208-2215.
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  15. Bagherinia, M., M. Bruggi, A. Corigliano, S. Mariani, D. Horsley, M. Li and E. Lasalandra, 2014. An efficient earth magnetic field mems sensor: Modeling, experimental results and optimization. J. Microelectromechan. Syst., 24: 887-895.
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  16. Bagherinia, M., M. Bruggi, A. Corigliano, S. Mariani and E. Lasalandra, 2014. Geometry optimization of a Lorentz force, resonating MEMS magnetometer. Microelectron. Reliabil., 54: 1192-1199.
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  17. Mariani, S., M. Bruggi, F. Caimmi, P. Bendiscioli and M. De Fazio, 2013. Sensor deployment over damage-containing plates: A topology optimization approach. J. Intell. Mater. Syst. Struct., 24: 1105-1122.
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  18. Mariani, S., A. Corigliano, F. Caimmi, M. Bruggi, P. Bendiscioli and M. de Fazio, 2013. MEMS-based surface mounted health monitoring system for composite laminates. Microelectron. J., 44: 598-605.
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  19. Corigliano, A., M. Dossi and S. Mariani, 2013. Recent advances in computational methods for microsystems. Adv. Mater. Res., 745: 13-25.
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  20. Corigliano, A., M. Dossi and S. Mariani, 2013. Domain decomposition and model order reduction methods applied to the simulation of multi-physics problems in MEMS. Comput. Struct., 122: 113-127.
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  21. Bruggi, M. and S. Mariani, 2013. Optimization of sensor placement to detect damage in flexible plates. Eng. Optimization, 45: 659-676.
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  22. Azam, S.E. and S. Mariani, 2013. Investigation of computational and accuracy issues in POD-based reduced order modeling of dynamic structural systems. Eng. Struct., 54: 150-167.
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  23. Ghisi, A., S. Mariani, A. Corigliano and S. Zerbini, 2012. Physically-based reduced order modelling of a uni-axial polysilicon MEMS accelerometer. Sensors, 12: 13985-14003.
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  24. Azam, S.E., M. Bagherinia and S. Mariani, 2012. Stochastic system identification via particle and sigma-point Kalman filtering. Sci. Iranica, 19: 982-991.
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  25. Azam, S.E., A. Ghisi and S. Mariani, 2012. Parallelized sigma-point Kalman filtering for structural dynamics. Comput. Struct., 92: 193-205.
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  26. Azam, S.E. and S. Mariani, 2012. Dual estimation of partially observed nonlinear structural systems: A particle filter approach. Mech. Res. Commun., 46: 54-61.
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  27. Mariani, S., R. Martini, A. Ghisi, A. Corigliano and M. Beghi, 2011. Overall elastic properties of polysilicon films: A statistical investigation of the effects of polycrystal morphology. Int. J. Multiscale Comput. Eng., 9: 327-346.
    CrossRef  |  Direct Link  |  
  28. Mariani, S., R. Martini, A. Ghisi, A. Corigliano and B. Simoni, 2011. Monte Carlo simulation of micro-cracking in polysilicon MEMS exposed to shocks. Int. J. Fracture, 167: 83-101.
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  29. Mariani, S., R. Martini, A. Corigliano and M. Beghi, 2011. Overall elastic domain of thin polysilicon films. Comput. Mater. Sci., 50: 2993-3004.
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  30. Mariani, S., A. Ghisi, R. Martini, A. Corigliano and B. Simoni, 2011. Multi-Scale Simulation of Shock-Induced Failure of Polysilicon MEMS. In: Advances in Electrical Engineering Research, Brouwer, T.M. (Ed.). Vol. 1, Nova Science Publishers, New York, USA., pp: 267-291.
  31. Mariani, S., A. Ghisi, A. Corigliano, R. Martini and B. Simoni, 2011. Two-scale simulation of drop-induced failure of polysilicon MEMS sensors. Sensors, 11: 4972-4989.
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  32. Salerno, G., S. Mariani, A. Corigliano, L. Andena, F. Caimmi and R. Frassine, 2010. Experimental-Numerical Assessment of Impact-Induced Damage in Cross-Ply Laminates. In: Computer Methods in Mechanics, Kuczma, M. and K. Wilmanski (Eds.). Springer, New York, pp: 493-504.
  33. Paolucci, R., S. Griffini and S. Mariani, 2010. Simplified modelling of continous buried pipelines subject to earthquake fault rupture. Earthquake Structures, 1: 253-267.
  34. Mariani, S., 2010. Effect of microstructure evolution on the overall response of porous-plastic solids. Materials, 3: 1031-1048.
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  35. Mariani, S., R. Martini and A. Ghisi, 2009. A finite element flux-corrected transport method for wave propagation in heterogeneous solids. Algorithms, 2: 1-18.
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  36. Mariani, S., A. Ghisi, A. Corigliano and S. Zerbini, 2009. Modeling impact-induced failure of polysilicon MEMS: A multi-scale approach. Sensors, 9: 556-567.
    CrossRef  |  Direct Link  |  
  37. Mariani, S., 2009. Failure of Layered Composites Subject to Impacts: Constitutive Modeling and Parameter Identification Issues. In: Strength of Materials, Mendes, G. and B. Lago (Eds.). Nova Science Publishers, New York, USA., pp: 97-131.
  38. Mariani, S., 2009. Failure assessment of layered composites subject to impact loadings: A finite element, sigma-point Kalman filter approach. Algorithms, 2: 808-827.
    CrossRef  |  Direct Link  |  
  39. Ghisi, A., F. Fachin, S. Mariani and S. Zerbini, 2009. Multi-scale analysis of polysilicon MEMS sensors subject to accidental drops: Effect of packaging. Microelectron. Reliabil., 49: 340-349.
    CrossRef  |  Direct Link  |  
  40. Mariani, S., A. Ghisi, F. Fachin, F. Cacchione, A. Corigliano and S. Zerbini, 2008. A three-scale FE approach to reliability analysis of MEMS sensors subject to impacts. Meccanica, 43: 469-483.
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  41. Mariani, S., A. Ghisi, A. Corigliano and S. Zerbini, 2007. Multi-scale analysis of MEMS sensors subject to drop impacts. Sensors, 7: 1817-1833.
    Direct Link  |  
  42. Mariani, S. and A. Ghisi, 2007. Unscented Kalman filtering for nonlinear structural dynamics. Nonlinear Dynam., 49: 131-150.
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  43. Ghisi, A. and S. Mariani, 2007. Mechanical characterization of Ti-5Al-2.5Sn ELI alloy at cryogenic and room temperatures. Int. J. Fracture, 146: 61-77.
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  44. Comi, C., S. Mariani and U. Perego, 2007. An extended FE strategy for transition from continuum damage to mode I cohesive crack propagation. Int. J. Numer. Anal. Methods Geomechan., 31: 213-238.
  45. Comi, C. and S. Mariani, 2007. Extended finite element simulation of quasi-brittle fracture in functionally graded materials. Comput. Methods Applied Mech. Eng., 196: 4013-4026.
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  46. Corigliano, A., S. Mariani and A. Pandolfi, 2006. Numerical analysis of rate-dependent dynamic composite delamination. Composites Sci. Technol., 66: 766-775.
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  47. Comi, C., S. Mariani, M. Negri and U. Perego, 2006. A one-dimensional variational formulation for quasibrittle fracture. J. Mech. Mater. Struct., 1: 1323-1343.
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  48. Mariani, S., A. Pandolfi and R. Pavani, 2005. Coupled space-time multiscale simulations of dynamic delamination tests. Mater. Sci. Wroclaw, 23: 509-519.
    Direct Link  |  
  49. Mariani, S. and A. Corigliano, 2005. Impact induced composite delamination: State and parameter identification via joint and dual extended Kalman filters. Comput. Methods Applied Mech. Eng., 194: 5242-5272.
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  50. Corigliano, A. and S. Mariani, 2004. Parameter identification in explicit structural dynamics: Performance of the extended Kalman filter. Comput. Methods Applied Mech. Eng., 193: 3807-3835.
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  51. Mariani, S. and U. Perego, 2003. Extended finite element method for quasi‐brittle fracture. Int. J. Numerical Methods Eng., 58: 103-126.
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  52. Ghisi, A., S. Kalicinski, S. Mariani, I. de Wolf and A. Corigliano, 2003. Polysilicon MEMS accelerometers exposed to shocks: Numerical-experimental investigation. J. Micromech. Microeng., Vol. 19. .
    Direct Link  |  
  53. Corigliano, A., S. Mariani and A. Pandolfi, 2003. Numerical modeling of rate-dependent debonding processes in composites. Composite Structures, 61: 39-50.
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  54. Corigliano, A. and S. Mariani, 2002. Identification of a constitutive model for the simulation of time-dependent interlaminar debonding processes in composites. Comput. Methods Applied Mech. Eng., 191: 1861-1894.
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  55. Mariani, S. and A. Corigliano, 2001. Anisotropic behaviour of porous, ductile media. Int. J. Solids Struct., 38: 2427-2451.
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  56. Corigliano, A. and S. Mariani, 2001. Simulation of damage in composites by means of interface models: Parameter identification. Composites Sci. Technol., 61: 2299-2315.
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  57. Corigliano, A. and S. Mariani, 2001. Parameter identification of a time-dependent elastic-damage interface model for the simulation of debonding in composites. Composites Sci. Technol., 61: 191-203.
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  58. Corigliano, A., S. Mariani and B. Orsatti, 2000. Identification of gurson-tvergaard material model parameters via kalman filtering technique. I. theory. Int. J. Fract., 104: 349-373.
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