ByTheme
Low-cost Seismic Isolation and Response Control of Structures
Articles in this field : 10
[J.52] Tsiavos, A., Alexander, N. A., Diambra, A., Ibraim, E., Vardanega, P. J., Gonzalez-Buelga, A., & Sextos, A. G. (2019). A sand-rubber deformable granular layer as a low-cost seismic isolation strategy in developing countries: Experimental investigation. Soil Dynamics and Earthquake Engineering, 125, 105731.
[J.63] Tsiavos, A., Sextos, A., Stavridis, A., Dietz, M., Dihoru, L., & Alexander, N. A. (2020). Large-scale experimental investigation of a low-cost PVC ‘sand-wich’ (PVC-s) seismic isolation for developing countries. Earthquake Spectra, 36(4), 1886–1911.
[J.66] Radu, A., Lazar, I. F., Neild, S. A., & Sextos, A. G. (2020). Risk assessment of cables vibration-suppressed with tuned-inerter dampers. Engineering Structures, 222, 111127.
[J.68] Tsiavos, A., Haladij, P., Sextos, A. G., & Alexander, N. A. (2020). Analytical investigation of the effect of a deformable sliding layer on the dynamic response of seismically isolated structures. Structures, 27, 2426–2436.
[J.73] Vassiliou, M. F., Broccardo, M., Cengiz, C., Dietz, M., Dihoru, L., Gunay, S., Mosalam, K. M., Mylonakis, G., Sextos, A. G., & Stojadinovic, B. (2021). Shake table testing of a rocking podium: Results of a blind prediction contest. Earthquake Engineering & Structural Dynamics, 50(4), 1043–1062.
[J.79] Vassiliou, M. F., Cengiz, C., Dietz, M., Dihoru, L., Broccardo, M., Mylonakis, G., Sextos, A. G., & Stojadinovic, B. (2021). Data set from shake table tests of free-standing rocking bodies. Earthquake Spectra, 37(4), 2971–2987.
[J.80] Tsiavos, A., Sextos, A. G., Stavridis, A., Dietz, M., Dihoru, L., di Michele, F., & Alexander, N. A. (2021). Low-cost hybrid design of masonry structures for developing countries: Shaking table tests. Soil Dynamics and Earthquake Engineering, 146, 106675.
[J.81] Tsiavos, A., Sextos, A. G., Stavridis, A., Dietz, M., Dihoru, L., & Alexander, N. A. (2021). Experimental investigation of a highly efficient, low-cost PVC-Rollers Sandwich (PVC-RS) seismic isolation. Structures, 33, 1590–1602.
[J.99] Sezer, Υ.Μ., Diambra, Α., Ge, Β., Dietz, Μ., Αlexander, Ν., Sextos, A.G., (2023) “Experimental determination of friction at the interface of a sand-based, seismically isolated foundation”, Acta Mechanica.
[J.103] Skandalos, K., Sextos, A.G., Tesfamariam, S. (2023) “Displacement-based design and seismic performance assessment of friction-dissipating light-timber frames coupled with a self-centering CLT wall”, ASCE Journal of Performance of Constructed Facilities, 38(5).
Low-cost Seismic Isolation and Response Control of Structures
Ground motion Selection and Generation for Uniform and Spatially Variable Excitation
Articles in this field : 21
[J.02] Sextos, A. G., Pitilakis, K. D., & Kappos, A. J. (2003). Inelastic dynamic analysis of RC bridges accounting for spatial variability of ground motion, site effects and soil-structure interaction phenomena. Part 1: Methodology and analytical tools. Earthquake Engineering & Structural Dynamics, 32(4), 607–627.
[J.03] Sextos, A. G., Kappos, A. J., & Pitilakis, K. D. (2003). Inelastic dynamic analysis of RC bridges accounting for spatial variability of ground motion, site effects and soil-structure interaction phenomena. Part 2: Parametric study. Earthquake Engineering & Structural Dynamics, 32(4), 629–652.
[J.06] Burdette, N. J., Elnashai, A. S., Lupoi, A., & Sextos, A. G. (2008). Effect of Asynchronous Earthquake Motion on Complex Bridges. I: Methodology and Input Motion. Journal of Bridge Engineering, 13(2), 158–165.
[J.07] Sextos, A. G., & Kappos, A. J. (2009). Evaluation of seismic response of bridges under asynchronous excitation and comparisons with Eurocode 8-2 provisions. Bulletin of Earthquake Engineering, 7(2), 519–545.
[J.09] * Katsanos, E. I., Sextos, A. G., & Manolis, G. D. (2010). Selection of earthquake ground motion records: A state-of-the-art review from a structural engineering perspective. Soil Dynamics and Earthquake Engineering, 30(4), 157–169.
[J.11] Sextos, A. G., Katsanos, E. I., & Manolis, G. D. (2011). EC8-based earthquake record selection procedure evaluation: Validation study based on observed damage of an irregular R/C building. Soil Dynamics and Earthquake Engineering, 31(4), 583–597.
[J.15] Katsanos, E. I., & Sextos, A. G. (2013). ISSARS: An integrated software environment for structure-specific earthquake ground motion selection. Advances in Engineering Software, 58, 70–85.
[J.19] Katsanos, E. I., Sextos, A. G., & Elnashai, A. S. (2014). Prediction of inelastic response periods of buildings based on intensity measures and analytical model parameters. Engineering Structures, 71, 161–177.
[J.21] Sextos, A. G., Karakostas, C., Lekidis, V., & Papadopoulos, S. (2015). Multiple support seismic excitation of the Evripos bridge based on free-field and on-structure recordings. Structure and Infrastructure Engineering, 11(11), 1510–1523.
[J.23] Katsanos, E. I., & Sextos, A. G. (2015). Inelastic spectra to predict period elongation of structures under earthquake loading. Earthquake Engineering & Structural Dynamics, 44(11), 1765–1782.
Ground motion Selection and Generation for Uniform and Spatially Variable Excitation
Soil-Structure Interaction
Articles in this field : 19
[IC.83] Boukovalas, G., Psycharis, I., Gantes, C., Sextos, A., Kappos, A. and Mylonakis, G. (2017) “Performance-based design of bridge piers in liquefiable sites with shallow foundation and limited ground improvement”, 3rd International Conference on Performance-based Design in Earthquake Geotechnical Engineering (PBD-III), Vancouver, BC, Canada, July 16-19.
[IC.76] Sextos A.G., Ekonomakis, MM. (2016) “Frequency Dependent Proxies of Soil-Structure Interaction Impact for Typical R/C Buildings”, 1st International Conference on Natural Hazards and Infrastructure, 28-30 June, 2016, Chania, Greece.
[J.01] Kappos, A. J., & Sextos, A. G. (2001). Effect of Foundation Type and Compliance on Seismic Response of RC Bridges. Journal of Bridge Engineering, 6(2), 120–130.
[J.20] Manos, G. C., Pitilakis, K. D., Sextos, A. G., Kourtides, V., Soulis, V., & Thauampteh, J. (2015). Field Experiments for Monitoring the Dynamic Soil–Structure–Foundation Response of a Bridge-Pier Model Structure at a Test Site. Journal of Structural Engineering, 141(1).
[J.24] Taskari, O., & Sextos, A. G. (2015). Probabilistic Assessment of Abutment-Embankment Stiffness and Implications in the Predicted Performance of Short Bridges. Journal of Earthquake Engineering, 19(5), 822–846.
[J.26] Lesgidis, N., Kwon, O.-S., & Sextos, A. G. (2015). A time-domain seismic SSI analysis method for inelastic bridge structures through the use of a frequency-dependent lumped parameter model. Earthquake Engineering & Structural Dynamics, 44(13), 2137–2156.
[J.29] Sextos, A. G., Faraonis, P., Zabel, V., Wuttke, F., Arndt, T., & Panetsos, P. (2016). Soil–Bridge System Stiffness Identification through Field and Laboratory Measurements. Journal of Bridge Engineering, 21(10).
[J.30] Lesgidis, N., Sextos, A. G., & Kwon, O.-S. (2017). Influence of frequency-dependent soil-structure interaction on the fragility of R/C bridges. Earthquake Engineering & Structural Dynamics, 46(1), 139–158.
[J.37] 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.
[J.43] Lesgidis, N., Sextos, A., & Kwon, O.-S. (2018). A frequency-dependent and intensity-dependent macroelement for reduced order seismic analysis of soil-structure interacting systems. Earthquake Engineering & Structural Dynamics, 47(11), 2172–2194.
Soil-Structure Interaction
Geographically Distributed and Hybrid Testing
Articles in this field : 2
[J.36] Bousias, S., Sextos, A. G., Kwon, O.-S., Taskari, O., Elnashai, A., Evangeliou, N., & di Sarno, L. (2019). Intercontinental Hybrid Simulation for the Assessment of a Three-Span R/C Highway Overpass. Journal of Earthquake Engineering, 23(7), 1194–1215.
[J.69] Zhang, Z., Park, J., Kwon, O.-S., Sextos, A. G., Strepelias, E., Stathas, N., & Bousias, S. (2021). Hybrid Simulation of Structure-Pipe-Structure Interaction within a Gas Processing Plant. Journal of Pipeline Systems Engineering and Practice, 12(2).
Geographically Distributed and Hybrid Testing
Multi-hazard Risk of Critical Infrastructure
Articles in this field : 17
[J.33] Sextos, A. G., Manolis, G. D., Athanasiou, A., & Ioannidis, N. (2017). Seismically induced uplift effects on nuclear power plants. Part 1: Containment building rocking spectra. Nuclear Engineering and Design, 318, 276–287.
[J.34] Sextos, A. G., Manolis, G. D., Ioannidis, N., & Athanasiou, A. (2017). Seismically induced uplift effects on nuclear power plants. Part 2: Demand on internal equipment. Nuclear Engineering and Design, 318, 288–296.
[J.40] Psyrras, N. K., & Sextos, A. G. (2018). Safety of buried steel natural gas pipelines under earthquake-induced ground shaking: A review. Soil Dynamics and Earthquake Engineering, 106, 254–277.
[J.41] de Risi, R., de Luca, F., Kwon, O.-S., & Sextos, A.G. (2018). Scenario-Based Seismic Risk Assessment for Buried Transmission Gas Pipelines at Regional Scale. Journal of Pipeline Systems Engineering and Practice, 9(4).
[J.49] Psyrras, N. K., Kwon, O., Gerasimidis, S., & Sextos, A. G. (2019). Can a buried gas pipeline experience local buckling during earthquake ground shaking? Soil Dynamics and Earthquake Engineering, 116, 511–529.
[J.50] Tsinidis, G., di Sarno, L., Sextos, A., & Furtner, P. (2019). A critical review on the vulnerability assessment of natural gas pipelines subjected to seismic wave propagation. Part 1: Fragility relations and implemented seismic intensity measures. Tunnelling and Underground Space Technology, 86, 279–296.
[J.53] Tsinidis, G., di Sarno, L., Sextos, A., & Furtner, P. (2019). A critical review on the vulnerability assessment of natural gas pipelines subjected to seismic wave propagation. Part 2: Pipe analysis aspects. Tunnelling and Underground Space Technology, 92, 103056.
[J.55] Giordano, N., de Luca, F., & Sextos, A. G. (2020). Out-of-plane closed-form solution for the seismic assessment of unreinforced masonry schools in Nepal. Engineering Structures, 203, 109548.
[J.56] Ali, A., de Risi, R., Sextos, A. G., Goda, K., & Chang, Z. (2020). Seismic vulnerability of offshore wind turbines to pulse and non‐pulse records. Earthquake Engineering & Structural Dynamics, 49(1), 24–50.
[J.58] Psyrras, N., Sextos, A. G., Crewe, A., Dietz, M., & Mylonakis, G. (2020). Physical Modeling of the Seismic Response of Gas Pipelines in Laterally Inhomogeneous Soil. Journal of Geotechnical and Geoenvironmental Engineering, 146(5).
Multi-hazard Risk of Critical Infrastructure
Infrastructure Network and Community Resilience
Articles in this field : 6
[IC.120] Parajuli, R., Xanthou, M., Agarwal, J., Sextos, A.G. (2022) “Smart tools on for self assessing community resilience in seismic regions: a case study from Nepal”, 3rd European Conference on Earthquake Engineering and Seismology, Bucharest, 4-9 September.
[J.10] Kappos, A. J., Panagopoulos, G. K., Sextos, A. G., Papanikolaou, V. K., & Stylianidis, K. C. (2010). Development of comprehensive earthquake loss scenarios for a Greek and a Turkish city – structural aspects. Earthquakes and Structures, 1(2), 197–214.
[J.45] Kilanitis, I., & Sextos, A. G. (2019). Integrated seismic risk and resilience assessment of roadway networks in earthquake prone areas. Bulletin of Earthquake Engineering, 17(1), 181–210.
[J.47] Kilanitis, I., & Sextos, A. G. (2019). Impact of earthquake-induced bridge damage and time evolving traffic demand on the road network resilience. Journal of Traffic and Transportation Engineering (English Edition), 6(1), 35–48.
[J.78] Freddi, F., Galasso, C., Cremen, G., Dall’Asta, A., di Sarno, L., Giaralis, A., Gutiérrez-Urzúa, F., Málaga-Chuquitaype, C., Mitoulis, S. A., Petrone, C., Sextos, A. G., Sousa, L., Tarbali, K., Tubaldi, E., Wardman, J., & Woo, G. (2021). Innovations in earthquake risk reduction for resilience: Recent advances and challenges. International Journal of Disaster Risk Reduction, 60, 102267.
[J.101] Agarwal, J., Parajuli, R., Xanthou, M., Sextos, A.G. (2023) “Safer and Resilient Schools in Seismic Regions: A Systems Perspective”, Civil Engineering and Environmental Systems.
Infrastructure Network and Community Resilience
Seismic Protection of Heritage and Masonry Structures
Articles in this field : 9
[J.08] Stylianidis, K.-A., & Sextos, A. G. (2009). Back Analysis of Thessaloniki Byzantine Land Walls as a Means to Assess its Seismic History. International Journal of Architectural Heritage, 3(4), 339–361.
[J.31] Pappas, A., Sextos, A. G., da Porto, F., & Modena, C. (2017). Efficiency of alternative intensity measures for the seismic assessment of monolithic free-standing columns. Bulletin of Earthquake Engineering, 15(4), 1635–1659.
[J.32] Anagnostopoulos, C., Sextos, A. G., Bikas, D., Stylianidis, K., Angelides, D., Avramidis, I., & Kyrkopoulou, K. (2017). Alternative Solutions to Preserve the Revealed Byzantine Antiquities at the Venizelou Metro Station of Thessaloniki. International Journal of Architectural Heritage, 11(4), 539–553.
[J.55] Giordano, N., de Luca, F., & Sextos, A. G. (2020). Out-of-plane closed-form solution for the seismic assessment of unreinforced masonry schools in Nepal. Engineering Structures, 203, 109548.
[J.70] Giordano, N., de Luca, F., Sextos, A. G., Ramirez Cortes, F., Fonseca Ferreira, C., & Wu, J. (2021). Empirical seismic fragility models for Nepalese school buildings. Natural Hazards, 105(1), 339–362.
[J.71] Giordano, N., de Luca, F., & Sextos, A. G. (2021). Analytical fragility curves for masonry school building portfolios in Nepal. Bulletin of Earthquake Engineering, 19(2), 1121–1150. https://doi.org/10.1007/s10518-020-00989-8
[J.76] Giordano, N., Norris, A., Manandhar, V., Shrestha, L., Paudel, D. R., Quinn, N., Rees, E., Shrestha, H., Marasini, N. P., Prajapati, R., Guragain, R., de Luca, F., & Sextos, A. G. (2021). Financial assessment of incremental seismic retrofitting of Nepali stone-masonry buildings. International Journal of Disaster Risk Reduction, 60, 102297.
[J.95] di Michele, F., Spacone, E., Camata, G., Brando, G., Sextos, A. G., Crewe, A., Mylonakis, G., Diez, M., Dihoru, L., & Varum, H. (2023). Shaking table test and numerical analyses of a full scale three-leaf masonry wall. Bulletin of Earthquake Engineering, 21(10), 5041–5081.
[J.96] Aminulai, H. O., Baiguera, M., Crump, D. A., Sextos, A. G., & Kashani, M. M. (2023). Experimental qualification of seismic strengthening of URM buildings in Nepal. Soil Dynamics and Earthquake Engineering, 173, 108130.
Seismic Protection of Heritage and Masonry Structures
Earthquake Reconnaissance Missions Data Management and Preparedness Policy
Articles in this field : 8
[J.05] Sextos, A. G., Kappos, A. J., & Stylianidis, K. C. (2007). Computer-Aided Pre- and Post-Earthquake Assessment of Buildings Involving Database Compilation, GIS Visualization, and Mobile Data Transmission. Computer-Aided Civil and Infrastructure Engineering, 23(1), 59–73.
[J.42] * Sextos, A. G., de Risi, R., Pagliaroli, A., Foti, S., Passeri, F., Ausilio, E., Cairo, R., Capatti, M.-C., Chiabrando, F., Chiaradonna, A., Dashti, S., de Silva, F., Dezi, F., Durante, M.-G., Giallini, S., Lanzo, G., Sica, S., Simonelli, A.-L., & Zimmaro, P. (2018). Local Site Effects and Incremental Damage of Buildings during the 2016 Central Italy Earthquake Sequence. Earthquake Spectra, 34(4), 1639–1669.
[J.48] Stewart, J. P., Zimmaro, P., Lanzo, G., Mazzoni, S., Ausilio, E., Aversa, S., Bozzoni, F., Cairo, R., Capatti, M.-C., Castiglia, M., Chiabrando, F., Chiaradonna, A., d’Onofrio, A., Dashti, S., de Risi, R., de Silva, F., della Pasqua, F., Dezi, F., di Domenica, A., … Tropeano, G. (2018). Reconnaissance of 2016 Central Italy Earthquake Sequence. Earthquake Spectra, 34(4), 1547–1555.
[J.59] Gilder, C. E. L., Pokhrel, R. M., Vardanega, P. J., de Luca, F., de Risi, R., Werner, M. J., Asimaki, D., Maskey, P. N., & Sextos, A. G. (2020). The SAFER geodatabase for the Kathmandu Valley: Geotechnical and geological variability. Earthquake Spectra, 36(3), 1549–1569.
[J.75] Vassiliou, M. F., Cengiz, C., Dietz, M., Dihoru, L., Broccardo, M., Mylonakis, G., Sextos, A. G., & Stojadinovic, B. (2021). Dataset from the shake table tests of a rocking podium structure. Earthquake Spectra, 37(3), 2107–2125.
[J.84] Cetin, K.-O., Mylonakis, G., Sextos, A. G., & Stewart, J. P. (2022). Reconnaissance of 2020 M 7.0 Samos Island (Aegean Sea) earthquake. Bulletin of Earthquake Engineering, 20(14), 7707–7712.
[J.87] Mavroulis, S., Ilgac, M., Tunçağ, M., Lekkas, E., Püskülcü, S., Kourou, A., Sextos, A. G., Mavrouli, M., Can, G., Thoma, T., Manousaki, M., & Karveleas, N. (2022). Emergency response, intervention, and societal recovery in Greece and Turkey after the 30th October 2020, MW = 7.0, Samos (Aegean Sea) earthquake. Bulletin of Earthquake Engineering, 20(14), 7933–7955.
[J.102] Baker, J. W., Crowley, H., Wald, D., Rathje, E., Au, S. K., Bradley, B. A., Burton, H., Cabas, A., Cattari, S., Cauzzi, C., Cavalieri, F., Contreras, S., Costa, R., Eguchi, R. T., Lallemant, D., Lignos, D. G., Maurer, B. W., Molina Hutt, C., Sextos, A. G., … Thompson, E. M. (2024). Sharing data and code facilitates reproducible and impactful research. Earthquake Spectra.
Earthquake Reconnaissance Missions Data Management and Preparedness Policy
Eurocodes Assessment and Design Tools
Articles in this field : 7
[IC.114] Sextos, A.G., Crewe, A., Dietz, M., Wardrop, G., (2020) “Design of a high-performance Hexapod shaking table to meet the requirements in the latest seismic qualification codes”, 17th World Conference of Earthquake Engineering, Sendai, Japan.
[J.04] Paraskeva, T. S., Kappos, A. J., & Sextos, A. G. (2006). Extension of modal pushover analysis to seismic assessment of bridges. Earthquake Engineering & Structural Dynamics, 35(10), 1269–1293.
[J.07] Sextos, A. G., & Kappos, A. J. (2009). Evaluation of seismic response of bridges under asynchronous excitation and comparisons with Eurocode 8-2 provisions. Bulletin of Earthquake Engineering, 7(2), 519–545.
[J.11] Sextos, A. G., Katsanos, E. I., & Manolis, G. D. (2011). EC8-based earthquake record selection procedure evaluation: Validation study based on observed damage of an irregular R/C building. Soil Dynamics and Earthquake Engineering, 31(4), 583–597.
[J.14] Salonikios, T. N., Sextos, A. G., & Kappos, A. J. (2012). Tests on composite slabs and evaluation of relevant Eurocode 4 provisions. Steel & Composite Structures, 13(6), 571–586.
[J.17] Skrekas, P., Sextos, A. G., & Giaralis, A. (2014). Influence of bi-directional seismic pounding on the inelastic demand distribution of three adjacent multi-storey R/C buildings. Earthquakes and Structures, 6(1), 71–87.
[J.28] Papanikolaou, V. K., & Sextos, A. G. (2016). Design charts for rectangular R/C columns under biaxial bending: A historical review toward a Eurocode-2 compliant update. Engineering Structures, 115, 196–206.
Eurocodes Assessment and Design Tools
AI Machine Learning and Expert Systems
Articles in this field : 9
[J.12] Katsanos, E. I., Taskari, O. N., & Sextos, A. G. (2014). A matlab-based educational tool for the seismic design of flexibly supported RC buildings. Computer Applications in Engineering Education, 22(3), 442–451.
[J.13] Manos, G. C., Mitoulis, S. A., & Sextos, A. G. (2012). A knowledge-based software for the preliminary design of seismically isolated bridges. Bulletin of Earthquake Engineering, 10(3), 1029–1047.
[J.16] Sextos, A. G. (2014). A paperless course on structural engineering programming: investing in educational technology in the times of the Greek financial recession. European Journal of Engineering Education, 39(1), 18–30.
[J.18] Sextos, A. G. (2014). ICT Applications for New Generation Seismic Design, Construction and Assessment of Bridges. Structural Engineering International, 24(2), 173–183.
[J.39] Psyrras, N. K., & Sextos, A. G. (2018). Build-X: Expert system for seismic analysis and assessment of 3D buildings using OpenSees. Advances in Engineering Software, 116, 23–35.
[J.51] Mergos, P. E., & Sextos, A. G. (2019). Selection of earthquake ground motions for multiple objectives using genetic algorithms. Engineering Structures, 187, 414–427.
[J.88] Liu, Z., Sextos, A., Guo, A., & Zhao, W. (2022). ANN-based rapid seismic fragility analysis for multi-span concrete bridges. Structures, 41, 804–817.
[J.98] Chen, P.-Y., Lesgidis, N., Sextos, A. G., & Taciroglu, E. (2023). A Method for automated development of model and fragility inventories of nonductile reinforced concrete buildings. Resilient Cities and Structures, 2(3), 87–103.
[J.100] Liu, Z., Guoc, A., Zhaoa, C. and A. G. Sextos (2023) Seismic Response of Bridges employing Knowledge-Enhanced Neural Networks for the Lumped Plasticity Modelling of RC Piers, Bulleting of Earthquake Engineering.
AI Machine Learning and Expert Systems
Mitigation of ground-borne vibrations
Articles in this field : 1
[J.62] Lesgidis, N., Sextos, A. G., Moschen, L., Gutierrez Gomez, J. S., & Pistone, E. (2020). Rigorous vehicle-soil-track simulation of high-speed rail through optimization-based model order reduction. Transportation Geotechnics, 23(September 2019), 100350.
Mitigation of ground-borne vibrations