Publications

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[ Author(Asc)] Title Type Year
G
Goertz, C. , Mollaioli, F. , Tesfamariam, S. , & others, . (2017). Energy based seismic design of a timber core-wall multi-storey hybrid building. In Proceedings 16th World Conference on Earthquake Engineering (pp. 1–11). Chilean Association on Seismology and Earthquake Engineering (ACHISINA).
Goertz, C. , Dickof, C. , Ratzlaff, D. , & Tesfamariam, S. . (2016). Design and behaviour of a timber-steel core wall multi-storey hybrid building under seismic actions. WCTE, Vienna, Austria.
Goda, K. , Zhang, L. , & Tesfamariam, S. . (2021). Portfolio Seismic Loss Estimation and Risk-based Critical Scenarios for Residential Wooden Houses in Victoria, British Columbia, and Canada. Risk analysis, 41, 1019–1037. Wiley Online Library.
Goda, K. , & Tesfamariam, S. . (2019). Financial risk evaluation of non-ductile reinforced concrete buildings in eastern and western Canada. International Journal of Disaster Risk Reduction, 33, 94–107. Elsevier.
Goda, K. , Rossetto, T. , Mori, N. , & Tesfamariam, S. . (2018). Mega quakes: Cascading earthquake hazards and compounding risks. Frontiers in Built Environment, 4, 8. Frontiers Media SA.
Goda, K. , & Tesfamariam, S. . (2017). Seismic risk management of existing reinforced concrete buildings in the Cascadia subduction zone. Natural Hazards Review, 18, B4015003. American Society of Civil Engineers.
Goda, K. , & Tesfamariam, S. . (2015). Seismic risk assessment of mega-thrust Mw9-class subduction earthquakes and aftershocks in Victoria, British Columbia, Canada using multi-variate seismic demand models.
Goda, K. , & Tesfamariam, S. . (2015). Multi-variate seismic demand modelling using copulas: Application to non-ductile reinforced concrete frame in Victoria, Canada. Structural Safety, 56, 39–51. Elsevier.
F
Francisque, A. , Tesfamariam, S. , Kabir, G. , Haider, H. , Reeder, A. , & Sadiq, R. . (2017). Water mains renewal planning framework for small to medium sized water utilities: a life cycle cost analysis approach. Urban Water Journal, 14, 493–501. Taylor & Francis.
Francisque, A. , Shahriar, A. , Islam, N. , Betrie, G. , Siddiqui, R. Binte, Tesfamariam, S. , & Sadiq, R. . (2014). A decision support tool for water mains renewal for small to medium sized utilities: a risk index approach. Journal of Water Supply: Research and Technology—AQUA, 63, 281–302. IWA Publishing.
Franchin, P. , Lupoi, A. , Noto, F. , & Tesfamariam, S. . (2016). Seismic fragility of reinforced concrete girder bridges using Bayesian belief network. Earthquake Engineering & Structural Dynamics, 45, 29–44. Wiley Online Library.
Franchin, P. , Lupoi, A. , Noto, F. , & Tesfamariam, S. . (2015). A Bayesian network model to assess seismic risk of reinforced concrete girder bridges.
D
Duerr, K. , Tesfamariam, S. , Wickramasinghe, V. , & Grewal, A. . (2013). Variable stiffness smart structure systems to mitigate seismic induced building damages. Earthquake engineering & structural dynamics, 42, 221–237. Wiley Online Library.
Duerr, K. , & Tesfamariam, S. . (2012). Seismic Damage Accumulation in Reinforced Concrete Structures due to Mainshock and Aftershock.
Duerr, K. , & Tesfamariam, S. . (2012). Comparison of optimization methods for retrofit placement in a non-code conforming reinforce-concrete structure. In Proceedings of 15th World Conference on Earthquake Engineering.
Dires, S. , Tannert, T. , & Tesfamariam, S. . (2021). Energy-Based Seismic Design Method for Coupled CLT Shear Walls. In International Workshop on Energy-Based Seismic Engineering (pp. 221–235). Springer.
Dickof, C. , Stiemer, S. F. , Bezabeh, M. A. , & Tesfamariam, S. . (2014). CLT–steel hybrid system: Ductility and overstrength values based on static pushover analysis. Journal of Performance of Constructed Facilities, 28, A4014012. American Society of Civil Engineers.
Dickof, C. , Stiemer, S. F. , Tesfamariam, S. , & Wu, D. . (2012). Wood-steel hybrid seismic force resisting systems: seismic ductility. In Proceedings of the World Conference for Timber Engineering, July, Auckland, New Zealand.
Dey, S. , & Tesfamariam, S. . (2022). Structural performance of buried pipeline undergoing fault rupture in sand using Taguchi design of experiments. Soil Dynamics and Earthquake Engineering, 155, 107174. Elsevier.
Dey, S. , & Tesfamariam, S. . (2022). Probabilistic Seismic Risk Analysis of Buried Pipelines Due to Permanent Ground Deformation for Victoria, BC. Geotechnics, 2, 731–753. MDPI.

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