1. Mitoulis SA, Argyroudis SA (2023). Flagship Report on Disaster and Climate Resilient Infrastructure: ‘Financing for Disaster and Climate Resilient Infrastructure for a net-zero economic transition’ for the Group of Twenty (G20), Coalition for Disaster Resilient Infrastructure (CDRI) (will be made available in the next G20 on 9–10 September 2023).
  2. Loli M, Kefalas G, Dafis S, Mitoulis SA, Schmidt F (2023). Flood Damage Inspection and Risk Indexing Data for an Inventory of Bridges in Central Greece, Data in Brief. Vol. 48, 109062.
  3. Mitoulis, S.A., Domaneschi, M., Casas, J.R., Cimellaro, G.P., Catbas, N., Stojadinovic, B., Frangopol, D.M. (2022). The crux of bridge and transport network resilience – Advancements and future-proof solutions. ICE-Bridge Engineering – Editorial (Vol. 175, No. 3, pp. 133-137). https://doi.org/10.1680/jbren.2022.175.3.133
  4. Mitoulis SA, Argyroudis SA, Panteli M, Fuggini C, Valkaniotis S, Hynes W, Linkov I (2023). Conflict resilience framework for critical infrastructure peacebuilding. Sustainable Cities and Society. https://doi.org/10.1016/j.scs.2023.104405
  5. Mitoulis SA, Bompa DV, Argyroudis SA (2023). Sustainability and climate resilience metrics and trade-offs in transport infrastructure asset recovery. Transportation Research Part D: Transport and Environment. Vol. 121, 103800. https://doi.org/10.1016/j.trd.2023.103800
  6. Donkor FK, Mitoulis SA, Argyroudis S, Aboelkhair H, Ballesteros Canovas JA, Bashir A, Cuaton GP, Diatta S, Habibi M, Hölbling D, Manuel L, Pregnolato M, Ramos Ribeiro RR, Sfetsos A, Shahzad N, Werner C (2022). SDG final decade of action: Resilient pathways to build back better from high-impact low-probability (HILP) events. Sustainability, 14, 1540, https://doi.org/10.3390/su142215401 
  7. Loli M, Kefalas G, Dafis S, Mitoulis SA, Schmidt F (2022). Bridge-Specific Flood Risk Assessment of Transport Networks Using GIS and Remotely Sensed Data. Science of the Total Environment. Vol. 850, 157976. https://doi.org/10.1016/j.scitotenv.2022.157976
  8. Loli, M., Manousakis, J., Mitoulis, S. A., & Zekkos, D. (2022). UAVs for Disaster Response: Rapid Damage Assessment and Monitoring of Bridge Recovery after a Major Flood. Engineering Proceedings MDPI, 17(1), 11.
  9. Argyroudis SA, Mitoulis SA, Chatzi E, Baker JW, Brilakis I, Gkoumas K, Vousdoukas M, Hynes W, Carluccio S, Keou O, Frangopol DM, Linkov I (2022). Digital technologies can enhance climate resilience of critical infrastructure. Climate Risk Management, 35, 100387 https://doi.org/10.1016/j.crm.2021.100387 (awarded the 2022 Thorpe Medal of the European Council on Computing in Construction- EC3)
  10. Loli M, Mitoulis SA, Tsatsis A, Manousakis J, Kourkoulis R, Zekkos D (2022). Flood characterization based on UAV mapping and forensic analysis of a structural failure. Science of the Total Environment. Vol. 822, 153661. https://doi.org/10.1016/j.scitotenv.2022.153661
  11. Markogiannaki O, Chen F, Xu H, Mitoulis SA, Parcharidis I (2022). Monitoring of a landmark bridge using SAR Interferometry coupled with engineering data and forensics. International Journal of Remote Sensing. 43(1) :95-119 https://doi.org/10.1080/01431161.2021.2003468
  12. Mitoulis SA, Domaneschi M, Cimellaro G-P, Casas J-R (2021) Bridge and transport network resilience – a perspective, ICE – Bridge Engineering -Themed Issue on Bridge and transport network resilience, https://doi.org/10.1680/jbren.21.00055.
  13. Argyroudis SA (2021) Resilience metrics for transport networks: a review and practical examples for bridges. Proceedings of the Institution of Civil Engineers: Bridge Engineering.
  14. Tubaldi E, Patelli E, White C, Mitoulis SA, de Almeida G, Cranston M, Brown J, McDonald H, Eftychia K, Hardmang M, Mathews R, Newell R, Pizarro A, Roca M, Zonta D (2021). Invited perspectives: Challenges and future directions in improving bridge flood resilience, Natural Hazards Earth Systems Science (NHESS) https://doi.org/10.5194/nhess-2021-293.
  15. Tubaldi E, Antonopoulos C, Mitoulis SA, Argyroudis S, Gara F, Ragni L, Carbonari S, Dezi F, Vratsikidis A, Pitilakis D, Anastasiadis A (2022). Field tests and numerical analysis of the effects of scour on a full-scale soil-foundation-structural system. Journal of Civil Structural Health Monitoring. https://doi.org/10.1007/s13349-022-00608-x
  16. Stefanidou S, Mitoulis S, Argyroudis S (2021). Fragility of bridges in a multiple-hazard environment: The effect of scour depth and ground movementEngineering Structures.
  17. Moutsianos S, Stefanidou S, Papanikolaou V, Mitoulis SA (2022) Backtesting of a landmark balanced-cantilever bridge for facilitating condition assessment and decision making (under preparation).
  18. Kagioglou P, Katakalos K, Mitoulis SA. (2021). Resilient connection for accelerated bridge constructions. Structures, 33, 3025-3039. https://doi.org/10.1016/j.istruc.2021.05.094
  19. Freddi F, Galasso C, Cremen G, Dall’Asta A, Di Sarno L, Giaralis A, Gutiérrez-Urzúa F, Málaga-Chuquitaype C, Mitoulis SA, Petrone C, Sextos A, Sousa L, Tarbali K, Tubaldi E, John Wardman, Woo G (2021) Innovation in earthquake risk reduction and resilience: some recent challenges and perspectives. International Journal of Disaster Risk Reduction. 102267, https://doi.org/10.1016/j.ijdrr.2021.102267
  20. Argyroudis SA, Mitoulis SA (2021). Vulnerability of bridges to individual and multiple hazards – floods and earthquakes, Reliability Engineering & System Safety, 210, 107564, https://doi.org/10.1016/j.ress.2021.107564
  21. Mitoulis SA, Argyroudis S, Loli M, Imam B (2021). Restoration models for quantifying flood resilience of bridges. Engineering Structures, 238, 112180 https://doi.org/10.1016/j.engstruct.2021.112180
  22. Mitoulis SA and Argyroudis SA (2021) Restoration models of flood resilient bridges: survey data. Data in Brief. 107088, https://doi.org/10.1016/j.dib.2021.107088
  23. McKenna G, Argyroudis SA, Winter MG, Mitoulis SA (2021). Multiple hazard fragility analysis for granular highway embankments: moisture ingress and scour. Transportation Geotechnics, 26: 100431 https://doi.org/10.1016/j.trgeo.2020.100431
  24. Smith A, Argyroudis SA, Winter MG, Mitoulis SA (2021). Economic impact of bridge functionality loss from a resilience perspective: Queensferry Crossing. ICE Bridge Engineering, https://doi.org/10.1680/jbren.20.00041.
  25. Stefanidou, S. P., & Kappos, A. J. (2021). Fragility-informed selection of bridge retrofit scheme based on performance criteria. Engineering Structures, 234, 111976.
  26. Achillopoulou DV, Mitoulis SA, Argyroudis SA, Wang Y (2020). Monitoring of transport infrastructure exposed to multiple hazards: A roadmap for building resilience. Science of the Total Environment, 746, 141001. https://doi.org/10.1016/j.scitotenv.2020.141001
  27. Georgiou I., Loli M., Kourkoulis R., Gazetas G. (2020). Pullout of Steel Grids in Dense Sand: Experiments and Design Insights, Journal of Geotechnical and Geoenvironmental Engineering, ASCE.
  28. Argyroudis SA, Mitoulis SA, Hofer L, Zanini MA, Tubaldi E, Frangopol DM (2020). Resilience assessment framework for critical infrastructure in a multi-hazard environment. Science of the Total Environment, 714, 136854. https://doi.org/10.1016/j.scitotenv.2020.136854
  29. Mitoulis SA (2020). Challenges and opportunities for the application of integral abutment bridges in earthquake-prone areas: A review. Soil Dynamics and Earthquake Engineering, 135, 106183. https://doi.org/10.1016/j.soildyn.2020.106183
  30. Kalfas K, Mitoulis SA, Konstantinidis D (2020) Influence of steel reinforcement on the performance of elastomeric bearings. ASCE Journal of Structural Engineering, 146(10): 04020195. DOI:10.1061/(ASCE)ST.1943-541X.0002710
  31. Argyroudis SA, Nasiopoulos G, Mantadakis N, Mitoulis SA (2020). Cost-based resilience assessment of bridges subjected to earthquakes. International Journal of Disaster Resilience in the Built, Environment, 12(2), DOI 10.1108/IJDRBE-02-2020-0014. 
  32. Rele RR, Balmukund R, Mitoulis SA, Bhattacharya S (2020) Rocking isolation of bridge pier using shape memory alloy. IOS Press. Bridge Structures; 16(2-3); 85-103, DOI: 10.3233/BRS-200174.
  33. Argyroudis S, Mitoulis SA, Winter M, Kaynia AM (2019). Fragility of transport assets exposed to multiple hazards: State-of-the-art review toward infrastructural resilience. Reliability Engineering and System Safety, 191, 106567. https://doi.org/10.1016/j.ress.2019.106567
  34. Loli M., Tsatsis A., Kourkoulis R., Anastasopoulos I. (2019). A simplified numerical method to simulate the thawing of frozen soil, Geotechnical Engineering, ICE, 173 (5): 408-427.
  35. Sousa H-M, Mitoulis SA, Psarras K, Tegos I (2020). Control of long-term deflections of RC beams using reinforcements and low-shrinkage concrete. Proceedings of the Institution of Civil Engineers – Bridge Engineering, https://doi.org/10.1680/jbren.19.00038
  36. Stefanidou, S. P., & Kappos, A. J. (2019). Bridge-specific fragility analysis: when is it really necessary? Bulletin of earthquake engineering, 17(4), 2245-2280.
  37. Tsatsis A., Loli M., Gazetas G. (2019). Pipeline in Dense Sand Subjected to Tectonic Deformation from Normal or Reverse Faulting, Soil Dynamics and Earthquake Engineering, 127.
  38. Rele RR, Dammala PK, Bhattacharya S, Balmukund R, Mitoulis S (2019). Seismic behaviour of rocking bridge pier supported by elastomeric pads on pile foundation. Soil Dynamics and Earthquake Engineering, 124:98-120. https://doi.org/10.1016/j.soildyn.2019.05.018
  39. Tubaldi E, Lupo R, Mitoulis S, Argyroudis S, Gara F, Ragni L, Carbonari S, Dezi F (2019). Field tests on a soil-foundation-structure system subjected to scour. ANIDIS2019, Italian National Association of Earthquake Engineering, 15-19 Sept.
  40. Argyroudis S, Achillopoulou D, Livina V, Mitoulis S (2020). Data-driven resilience assessment for transport infrastructure exposed to multiple hazards, 10th International Conference on Bridge Maintenance, Safety and Management, IABMAS2020, 28 June-2 July, Sapporo, Japan.
  41. Argyroudis S, Winter MG, Mitoulis SA (2019) Transport infrastructure ecosystems and their vulnerability to geohazards. Proceedings of the XVII ECSMGE-2019. Geotechnical Engineering foundation of the future ISBN 978-9935-9436-1-3, Reykjavik, Iceland
  42. Makhoul N, ArgyroudisS (2019). Tools for Resilience Assessment: Developments, Limitations and Future Needs. ICONHIC 2019 2nd International Conference on Natural Hazards & Infrastructure, 23-26 June, 2019, Chania, Greece
  43. Ibrahim H, Baladas A, Mitoulis SA (2019). Bridge-abutment-backfill interaction: beneficial or detrimental for integral abutment bridges? COMPDYN 2019 7th ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering Crete, Greece, 24–26 June 2019
  44. Mitoulis S, Argyroudis S, Lamb R (2019). Risk and resilience of bridgeworks exposed to hydraulic hazards, IABSE2019-New York, September 4-6. DOI: 10.2749/newyork.2019.0436
  45. Yuan V,  Argyroudis S,  Tubaldi E, Pregnolato M, Mitoulis S (2019). Fragility of bridges exposed to multiple hazards and impact on transport network resilience. SECED2019 Earthquake risk and engineering towards a resilient world, Greenwich– September 9-10
  46. Tsinidis G, Papantou M, Mitoulis SA (2019), Response of integral abutment bridges under a sequence of thermal loading and seismic shaking. Earthquakes and Structures, Vol. 16, No. 1, DOI: https://doi.org/10.12989/eas.2019.16.1.000
  47. Argyroudis S, Mitoulis S, Kaynia AM, Winter MG (2018). Fragility assessment of transportation infrastructure systems subjected to earthquakes. Geotechnical Earthquake Engineering and Soil Dynamics V, June 10-13, Austin, Texas, USA.
  48. Loli M., Kourkoulis R., Gazetas G. (2018). Physical and Numerical Modelling of Hybrid Foundations to Mitigate Seismic Fault Rupture Effects, Journal of Geotechnical and Geoenvironmental Engineering, 14(11): 43-66.
  49. Argyroudis S, Mitoulis S, Winter MG, Kaynia AM (2018). Fragility of critical transportation infrastructure systems subjected to geo-hazards. 16th European Conference on Earthquake Engineering, June 18-21, Thessaloniki, Greece.
  50. Caristo A, Barnes J, Mitoulis SA (2018). Numerical modelling of Integral Abutment Bridges under a large number of seasonal thermal cycles. ICE Proceedings of the Institution of Civil Engineers – Bridge Engineering 171(3): 179-190. https://doi.org/10.1680/jbren.17.00025
  51. Tubaldi E, Mitoulis S, Ahmadi H (2018). Comparison of different models for high damping rubber bearings in seismically isolated bridges, Soil Dynamics and Earthquake Engineering 104 (2018) 329–345 https://doi.org/10.1016/j.soildyn.2017.09.017
  52. Galbusera L, Giannopoulos G, Argyroudis S,  Kakderi K (2018). A Boolean Networks approach to modeling and resilience analysis of interdependent critical infrastructures. Computer‐Aided Civil and Infrastructure Engineering, 33(12), 1041-1055.
  53. Achillopoulou, D. V. (2017). Investigation of load transfer along interfaces of jacketed square columns. Structural Engineering and Mechanics, 63(3), 293-302
  54. Pau, A, Achillopoulou D. V. (2017). Interaction of Shear and Rayleigh–Lamb Waves with Notches and Voids in Plate Waveguides. Materials, 10(7), 841
  55. Argyroudis S, Tsinidis G, Gatti F, Pitilakis K (2017). Effects of SSI and lining corrosion on the seismic vulnerability of shallow circular tunnels, Soil Dynamics and Earthquake Engineering 98: 244-256.
  56. Kalfas KN, Mitoulis SA (2017). Performance of steel-laminated rubber bearings subjected to combinations of axial loads and shear strains. Procedia Engineering 199, 2979–2984, https://doi.org/10.1016/j.proeng.2017.09.533.
  57. Mitoulis SA, Rodriguez JR (2017). Seismic Performance of Novel Resilient Hinges for Columns and Application on Irregular Bridges. ASCE Journal of Bridge Eng., Vol. 22, No. 2. DOI: 10.1061/(ASCE)BE.1943-5592.0000980
  58. Kalfas K, Mitoulis S, Katakalos (2017). Numerical study on the response of steel-laminated elastomeric bearings subjected to variable axial loads and development of local tensile stresses. Engineering Structures, Vol. 134, 346-357. https://doi.org/10.1016/j.engstruct.2016.12.015
  59. Stefanidou, S. P., Sextos, A. G., Kotsoglou, A. N., Lesgidis, N., & Kappos, A. J. (2017). Soil-structure interaction effects in analysis of seismic fragility of bridges using an intensity-based ground motion selection procedure. Engineering Structures, 151, 366-380.
  60. Stefanidou, S. P., & Kappos, A. J. (2017). Methodology for the development of bridge‐specific fragility curves. Earthquake Engineering & Structural Dynamics, 46(1), 73-93.
  61. Mitoulis S, Palaiochorinou A, Georgiadis I, Argyroudis S (2016). Extending the application of integral abutment bridges in earthquake prone areas by using novel isolators of recycled materials. Earthquake Engineering and Structural Dynamics 45(14):2283–2301, doi: 10.1002/eqe.2760.
  62. Argyroudis S, Palaiochorinou A, Mitoulis S, Pitilakis D (2016). Use of rubberised backfills for improving the seismic response of Integral Abutment Bridges, Bull of Earthquake Eng, 14(12):3573–3590, doi: 10.1007/s10518-016-0018-1.
  63. Tubaldi E, Mitoulis S, Ahmadi H Muhr A (2016). A parametric study on the axial behaviour of elastomeric isolators in multi-span bridges subjected to horizontal excitation, Bulletin of Earthquake Engineering, Vol. 14, No. 4, 1285-1310.
  64. Mitoulis SA (2016). Some open issues in the seismic design of bridges to Eurocode 8-2, Challenge Journal of Structural Mechanics, Vol. 2 , No. 1, 7–13, DOI: http://dx.doi.org/10.20528/cjsmec.2016.02.002.
  65. Mitoulis SA, Ataria RB (2016). Effect of waste tyre rubber additive on concrete mixture strength, British Journal of Environmental Sciences Vol. 4, No. 4, 11-18.
  66. Ertugay K, Argyroudis S, Düzgün S (2016). Accessibility modeling in earthquake case considering road closure probabilities: A case study of health and shelter service accessibility in Thessaloniki, Greece, International Journal of Disaster Risk Reduction, 17: 49–66.
  67. Mayoral JM, Argyroudis S, Castañon E (2016). Vulnerability of floating tunnel shafts for increasing earthquake loading, Soil Dynamics and Earthquake Engineering, 80: 1-10
  68. Argyroudis S, Selva J, Gehl P, Pitilakis K (2015). Systemic seismic risk assessment of road networks considering interactions with the built environment. Computer-Aided Civil and Infrastructure Engineering, 30(7): 524-540, doi: 10.1111/mice.12136
  69. Argyroudis S, Kaynia AM (2015). Analytical seismic fragility functions for highway and railway embankments and cuts. Earthquake Engineering and Structural Dynamics, 44(11):1863–1879, doi: 10.1002/eqe.2563.
  70. Mitoulis SA (2015). Uplift of elastomeric bearings in isolated bridges subjected to longitudinal seismic excitations, Structure and Infrastructure Engineering: Maintenance, Management, Life-Cycle Design and Performance Vol.11, No.12.
  71. Mitoulis SA, Titirla M, Tegos ΙΑ (2014). Design of bridges utilizing a novel earthquake resistant abutment with high capacity wing walls, Engineering Structures, Vol. 66, 35–44.
  72. Loli M., Knappett J.A., Brown M.J., Anastasopoulos I., and Gazetas G. (2014). Centrifuge Modeling of Rocking–isolated Inelastic RC Bridge Piers, Earthquake Engineering and Structural Dynamics, 43 (15): 2341-2359.
  73. Eidsvig U, McLean A, Vangelsten BV, Kalsnes B, Ciurean RL, Argyroudis S, Winter M, Corominas J, Mavrouli OC, Fotopoulou S, Pitilakis K, Baills A, Malet JP, Kaiser G (2014) Assessment of socio-economic vulnerability to landslides using an indicator-based approach. Methodology and case studies. Bulletin of Engineering Geology and the Environment, 73: 307-324, doi: 10.1007/s10064-014-0571-2.
  74. Argyroudis S, Kaynia AM, Pitilakis K (2013). Development of fragility functions for geotechnical constructions: application to cantilever retaining walls. Soil Dynamics and Earthquake Engineering, 50: 106-116.
  75. Selva J, Argyroudis S, Pitilakis K (2013). Impact on loss/risk assessments of inter-model variability in vulnerability analysis. Natural Hazards, 67(2): 723-746.
  76. Mitoulis SA, Tegos ΙΑ, Stylianidis Κ-C (2013). A new scheme for the seismic retrofit of multi-span simply supported (MSSS) bridges, Structure and Infrastructure Engineering, Vol. 9, No. 7, 719–732.
  77. Mitoulis SA (2012). Seismic design of bridges with the participation of seat-type abutments, Engineering Structures. Vol. 44, 222-233.

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