Journal Articles

1. Askaripour  M, Saeidi A, Rouleau A . (2022). Rockburst in underground excavations: A review of mechanism, classification, and prediction methods, Underground Space.

2. Salsabili  M, Saeidi A, Rouleau A, Nastev M . (2021). Development of empirical CPTu-Vs correlations for post-glacial sediments in Southern Quebec, Canada, in consideration of soil type and geological setting, Soil Dynamics and Earthquake Engineering.

3. Attoumane A, Walter J, Saeidi A,  Chesnaux R.,  . (2021). A cluster-based multiparametric similarity test for the compartmentalization of crystalline rocks into structural domains
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 Quarterly Journal of Engineering Geology and Hydrogeology.

4. Jalili Kashtiban Y, Saeidi A, Farinas M-I,  Quirion M . (2021). A Review on Existing Methods to Assess Hydraulic Erodibility Downstream of Dam Spillways. Water,MDPI.

5. Koulibalyi  S. A., Saeidi A, Rouleau A,  Quirion M . (2021). Identification of Hydraulic Parameters Influencing the Hydraulic Erodibility of Spillway Flow ChannelsWater,MDPI.

6. Salsabili M, Saeidi A,  Rouleau A, Nastev M. (2021) Seismic microzonation of a region with complex surficial geology based on different site classification approaches,  Geoenvironmental Disasters. 

7. Salsabili M, Saeidi A,  Rouleau A, Nastev M. (2021) 3D Probabilistic Modelling and Uncertainty Analysis of Glacial and Post-Glacial Deposits of the City of Saguenay, CanadaGeosciences .  

8. Heidarzadeh S, Saeidi A, Lavoie C, Rouleau A. (2021) Geomechanical characterization of a heterogeneous rock mass using geological and laboratory test results: a case study of the Niobec Mine, Quebec (Canada). SN Applied Sciences. 

9. Boumaiza L, Saeidi A, Quirion M. (2021). A method to determine the relative importance of geological parameters that control the hydraulic erodibility of rock, Quarterly Journal of Engineering Geology and Hydrogeology.

10. Hosseinpour V., Saeidi A., Nollet, MJ., Nastev, M. (2021) Seismic loss estimation software: A comprehensive review of risk assessment steps, software development and limitations. Engineering structures.

11. Shahbazi A., Chesnaux, R., Saeidi, A.  (2021).A new combined analytical-numerical method for evaluating the inflow rate into a tunnel excavated in a fractured rock mass.Engineering Geology.

12. Saeidi, A., Deck, O., Seifaddini, M., Marwan, H., Verdel, T.  (2021). An improved methodology for applying the influence function for subsidence hazard prediction Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards.

13.Heidarzadeh, Sh., Saeidi, A.,  Rouleau, A. (2021). The damage-failure criteria for numerical stability analysis of underground excavations: A review. Tunneling and Underground Space Technology.

14. Saeidi, A., Heidarzadeh, Sh., Lalancette, S., Rouleau, A. (2021).  The effects of in situ stress uncertainties on the assessment of open stope stability: A case study at the Niobec Mine, Quebec (Canada). Geomechanics for Energy and the Environment.

15. Richer, B., Saeidi, A., Boivin, M., Rouleau, A.(2020). Overview of Retrogressive Landslide Risk Analysis in Sensitive Clay Slope. Geosciences10(8), 279.

16. Seifaddini, M., Saeidi, A., Farzaneh, M. (2020).  Ice stress-strain curve prediction uniaxial compression loading in the objective of atmospheric icing risk evaluation. Materialwissenschaft und Werkstofftechnik 51(5), 676-684.

17. Shahbazi A., Saeidi, A., Chesnaux, R. (2020).  A review of existing methods used to evaluate the hydraulic conductivity of a fractured rock mass. Engineering Geology.

18. Heidarzadeh S, Saeidi A, Rouleau A. (2020). Use of probabilistic numerical modeling to evaluate the effect of geomechanical parameter variability on the probability of open stope failure: a case study of the Niobec Mine, Quebec (Canada). Rock Mechanics and Rock Engineering.

19.  Saeidi A, Eslami E., Quirion M., Seifaddini, M. (2019). Assessment of rock mass erosion in unlined spillways using developed vulnerability and fragility functionsGeorisk: Assessment and Management of Risk for Engineered Systems and Geohazards. 

20.  Boumaiza, L., Saeidi, A., & Quirion, M. (2019). A method to determine relevant geomechanical parameters for evaluating the hydraulic erodibility of rock. Journal of Rock Mechanics and Geotechnical Engineering11(5), 1004-1018.

21. Boumaiza, L., Saeidi, A., & Quirion, M. (2019). Determining relative block structure rating for rock erodibility evaluation in the case of non-orthogonal joint sets. Journal of Rock Mechanics and Geotechnical Engineering11(5), 72-87.

22. Farid H, Saeidi A, Farzaneh M. (2018). An atmospheric ice empirical failure criterionCold Regions Science and Technology. 146(February 2): 81-86.view file

23.  Heidarzadeh, S., Saeidi, A., & Rouleau, A. (2018). Evaluation of the effect of geometrical parameters on stope probability of failure in the open stoping method using numerical modeling. International Journal of Mining Science and Technology, 29(3), 399-408. view file

24. Heidarzadeh S, Saeidi A, Rouleau A. (2018). Assessing the effect of open stope geometry on rock mass brittle damage using a response surface methodology. International Journal of Rock Mechanics and Mining Sciences. 106: 60-73.view file

25. Foulon, T., Saeidi, A., Chesnaux, R., Nastev, M., & Rouleau, A. (2018). Spatial distribution of soil shear-wave velocity and the fundamental period of vibration–a case study of the Saguenay region, CanadaGeorisk: Assessment and Management of Risk for Engineered Systems and Geohazards12(1), 74-86.view file

26. Levesque, Y., Saeidi, A., & Rouleau, A. (2017). An earth pressure coefficient based on the geomechanical and geometric parameters of backfill in a mine stopeInternational Journal of Geo-Engineering8(1), 27.view file

27.  Farid, H., Saeidi, A., & Farzaneh, M. (2017). Prediction of failure in atmospheric ice under triaxial compressive stress. Cold Regions Science and Technology138, 46-56view file

28. Saeidi A, Maazallahi V, Rouleau A. (2016). Assessment of slide surface and pre-slide topography using site investigation data in back analysis. International Journal of Rock Mechanics and Mining Sciences. 88: 29–33.view file

29. Farid H, Farzaneh M, Saeidi A, Erchiqui F. (2016). A contribution to the study of the compressive behavior of atmospheric ice. Cold Regions Science and Technology. 121(January 20): 60–65.view file

30. Saeidi, A., Deck, O., & Verdel, T. (2015). Development of a damage simulator for the probabilistic assessment of building vulnerability in subsidence areasInternational Journal of Rock Mechanics and Mining Sciences73, 42-53. view file

31. Saeidi A, Deck O, Verdel T. (2014). An extension of analytical methods for building damage evaluation in subsidence regions to anisotropic beamsEuropean Journal of Environmental and Civil Engineering. 19(6): 756-772.view file

32. Saeidi A, Deck O, Al Heib M, Verdel T, Rouleau A. (2013). Adjusting the influence function method for subsidence prediction. Key Engineering Materials. 553(10): 59-66.view file

33. Saeidi, A., Deck, O., & Verdel, T. (2013). Comparison of building damage assessment methods for risk analysis in mining subsidence regionsGeotechnical and Geological Engineering31(4), 1073-1088.view file

34Saeidi, A., Deck, O., & Verdel, T. (2012). Development of building vulnerability functions in subsidence regions from analytical methodsGéotechnique62(2), 107-120.view file

35.  Saeidi A, Deck O, Verdel T. (2011). Développement d’un simulateur de dommages pour l’évaluation de la vulnérabilité en zone d’aléa minier.Revue de la société de l’Industrie Minérale. 185: 34-38.view file

36. Saeidi, A., Deck, O., & Verdel, T. (2009). Development of building vulnerability functions in subsidence regions from empirical methodsEngineering Structures31(10), 2275-2286.view file

Professor at the University of Quebec at Chicoutimi