Pubblicazioni
Testo

Line 1

  1. Robinson, J.A.; Novak, R.; Kanduč, T.; Maggos, T.; Pardali, D.; Stamatelopoulou, A.; Saraga, D.; Vienneau, D.; Flückiger, B.; Mikeš, O.; Degrendele, C.; Sáňka, O.; García Dos Santos-Alves, S.; Visave, J.; Gotti, A.; Persico, M.G.; Chapizanis, D.; Petridis, I.; Karakitsios, S.; Sarigiannis, D.A.; Kocman, D. User-Centred Design of a Final Results Report for Participants in Multi-Sensor Personal Air Pollution Exposure Monitoring Campaigns. Int. J. Environ. Res. Public Health 2021, 18, 12544. https://doi.org/10.3390/ijerph182312544
  2. Novak, R.; Petridis, I.; Kocman, D.; Robinson, J.A.; Kanduč, T.; Chapizanis, D.; Karakitsios, S.; Flückiger, B.; Vienneau, D.; Mikeš, O.; Degrendele, C.; Sáňka, O.; García Dos Santos-Alves, S.; Maggos, T.; Pardali, D.; Stamatelopoulou, A.; Saraga, D.; Persico, M.G.; Visave, J.; Gotti, A.; Sarigiannis, D. Harmonization and Visualization of Data from a Transnational Multi-Sensor Personal Exposure Campaign. Int. J. Environ. Res. Public Health 2021, 18, 11614. https://doi.org/10.3390/ijerph182111614
  3. Degrendele, C.; Kanduč, T.; Kocman, D.; Lammel, G.; Cambelová, A.; Garcia Dos Santos, G.; Horvat, M.; Kukučka, P.; Holubová Šmejkalová, A.;  Mikeš, O.; Nuñez-Corcuera, B.; Přibylová, P.; Prokeš, R.; Saňka, O.; Maggos, T.; Sarigiannis, D.; Klánová, J. NPAHs and OPAHs in the atmosphere of two central European cities: Seasonality, urban-to-background gradients, cancer risks and gas-to-particle partitioning, Science of The Total Environment, Volume 793, 2021, 148528, ISSN 0048-9697, https://doi.org/10.1016/j.scitotenv.2021.148528
  4. Ahmetovic, Dragan, Claudio Bettini, Mariano Ciucci, Filippo Dacarro, Paolo Dubini, Alberto Gotti, Gerard O’Reilly, Alessandra Marino, Sergio Mascetti, and Denis Sarigiannis. 2020. “Emergency Navigation Assistance for Industrial Plants Workers Subject to Situational Impairment.” In The 22nd International ACM SIGACCESS Conference on Computers and Accessibility, 1–3. New York, NY, USA: ACM. https://doi.org/10.1145/3373625.3418016
  5. Sarigiannis, D., Papaioannou, N., Handakas, E., Anesti, O., Polanska, K., Hanke, W., Salifoglou, A, Gabriel, C., Karakitsios, S. Neurodevelopmental exposome: the effect of in utero co-exposure to heavy metals and phthalates on child neurodevelopment. Environmental Research,  Vol. 197, June 2021, 110949 10.1016/j.envres.2021.110949
  6. Kermenidou, M., Balcells, L., Martinez-Boubeta, C., Chatziavramidis, A., Konstantinidis, I., Samaras, T., Sarigiannis, D., Simeonidis, K. Magnetic nanoparticles: an indicator of health risks related to anthropogenic airborne particulate matter. Environmental Pollution, Vol. 27115, February 2021, 116309, 10.1016/j.envpol.2020.116309 
  7. Sarigiannis, D., Handakas, E.J., Karakitsios, S, Gotti, A. Life cycle assessment of municipal waste management options. Environmental Research, Vol. 193, February 2021, 110307, 10.1016/j.envres.2020.110307
  8. Saraga, D., Maggos, T., Degrendele, C., Klánová, J., Horvat, M., Kocman, D., Kanduč, T., Garcia, S., Peteira, R. F., Gómez, P. M., Manousakas, M., Bairachtari, K., Eleftheriadis, K., Kermenidou, M., Karakitsios, S., Gotti, A., Sarigiannis, D. Multi-city comparative PM2.5 source apportionment for fifteen sites in Europe: The ICARUS project. Science of The Total Environment,  Vol. 751, January 2021, 141855, 10.1016/j.scitotenv.2020.141855
  9. Barouki, R., Kogevinas, M., Audouze, K., Belesova, K., Bergman, A., Birnbaum, L., Boekhold, S., Denys, S., Desseille, C., Drakvik, E., Frumkin, H., Garric, J., Destoumieux-Garzon, D., Haines, A., Huss, A., Jensen, G., Karakitsios, S., Klanova, J., Koskela, I. M., Laden, F., Marano, F., Franziska Matthies-Wiesler, E., Morris, G., Nowacki, J., Paloniemi, R., Pearce, N., Peters, A., Rekola, A., Sarigiannis, D., Šebková, K., Slama, R., Staatsen, B., Tonne, C., Vermeulen, R., Vineis, P. The COVID-19 pandemic and global environmental change: Emerging research needs. Environ Int (2020) 146, 106272.
  10. Chapizanis, D., Karakitsios, S., Gotti, A., Sarigiannis, D. Assessing personal exposure using Agent Based Modelling informed by sensors technology. Environmental Research (2021) 192, 110141. 10.1016/j.envres.2020.110141.
  11. Papaioannou, N., Distel, E., Oliveira, E., Gabriel, C., Frydas I., Anesti, O., Attignon, E., Aggerbeck, M., Horvat, M., Barouki, R., Sarigiannis, D., Karakitsios, S. Multi-omics analysis reveals that co-exposure to phthalates and metals disturbs urea cycle and choline metabolism. Environmental Research (2021) 192, 110041
  12. Rezaee, R., Sheidary, A., Jangjoo, S., Ekhtiary, S., Bagheri, S., Dadres, M., Docea, A.O., Tsarouhas, K., Sarigiannis, D.A., Karakitsios, S., Tsatsakis, A., Kovatsi, L., Hashemzaei, M. Cardioprotective effects of hesperidin in carbon monoxide-poisoned rats. Drug and Chemical Toxicology (2019), Taylor & Francis, doi.org/10.1080/01480545.2019.1650753.
  13. Skalny, A.V., Rios Rossi Lima, T., Ke, T., Zhou, Z-C., Bornhorst, J., Alekseenko, S.I., Aaseth, J., Anesti, O., Sarigiannis, D.A., Tsatsakis, A., Aschner, M., Tinkov, A.A. Toxic metal exposure as a possible risk factor for COVID-19 and other respiratory infectious diseases, Food and Chemical Toxicology (2020), 146, 111809.
  14. Novak, R., Kocman, D., Robinson, J.A., Kanduč, T., Sarigiannis, D., Džeroski, S., Horvat, M. Low-cost environmental and motion sensor data for complex activity recognition: proof of concept. Engineering Proceedings (2020) 2,54; doi:10.3390/ecsa-7-08194.
  15. Trivizakis, E., Tsiknakis, N., Vassalou, E.E., Papadakis, G.Z., Spandidos, D.A., Sarigiannis, D., Tsatsakis, A., Papanikolaou, N., Karantanas, A.H., Marias, K. Advancing Covid-19 differentiation with a robust preprocessing and integration of multi-institutional open-repository computer tomography dataset for deep learning analysis. Experimental and Therapeutic Medicine, Exp Ther Med. 2020 Nov;20(5):78, 10.3892/etm.2020.9210.
  16. Pourchet M, Debrauwer L, Klanova J, Price EJ, Covaci A, Caballero-Casero N, Oberacher H, Lamoree M, Damont A, Fenaille F, Vlaanderen J, Meijer J, Krauss M, Sarigiannis D, Barouki R, Le Bizec B, Antignac JP. Suspect and non-targeted screening of chemicals of emerging concern for human biomonitoring, environmental health studies and support to risk assessment: From promises to challenges and harmonisation issues. Environ Int. 2020 Jun;139:105545, 10.1016/j.envint.2020.105545
  17. Selami N., G. Sèze, M. Gaetani, J.Y. Grandpeix, C. Flamant, J. Cuesta, N. Benabadji,Cloud Cover over the Sahara during the Summer and Associated Circulation Features,Atmosphere,2021,https://doi.org/10.3390/atmos12040428
  18. Monerie P.A., B. Pohl, M. Gaetani,The fast response of Sahel precipitation to climate change allows effective mitigation action,npj Climate and Atmospheric Science,2021, https://doi.org/10.1038/s41612-021-00179-6
  19. Chauvigné A., F. Waquet, F. Auriol, L. Blarel, C. Delegove, O. Dubovik, C. Flamant, M. Gaetani, P. Goloub, R. Loisil, M. Mallet, J.M. Nicolas, F. Parol, F. Peers, B. Torres, P. Formenti,Aerosol and cloud properties in the Namibian region during AEROCLO-sA field campaign: 3MI airborne simulator and sun-photometer measurements,Atmospheric Chemistry and Physics,2021, https://doi.org/10.5194/acp-21-8233-2021
  20. Kodera, K., N. Eguchi, R. Ueyama, B. M. Funatsu, M. Gaetani, C. M. Taylor,The impact of tropical tropopause cooling on Sahelian extreme deep convection,Journal of the Meteorological Society of Japan,2021, https://doi.org/10.2151/jmsj.2021-055
  21. Di Biagio C., J.R. Banks, M. Gaetani,Dust Atmospheric Transport Over Long Distances,Reference Module in Earth Systems and Environmental Sciences,2021, https://doi.org/10.1016/B978-0-12-818234-5.00033-X
  22. Hayley J. Fowler , Haider Ali , Richard P. Allan , Nikolina Ban , Renaud Barbero , Peter Berg , Stephen Blenkinsop , Nalan Senol Cabi , Steven Chan , Murray Dale , Robert J. H. Dunn , Marie Ekström , Jason P. Evans , Giorgia Fosser , Brian Golding , Selma B. Guerreiro , Gabriele C. Hegerl , Abdullah Kahraman , Elizabeth J. Kendon , Geert Lenderink , Elizabeth Lewis , Xiaofeng Li , Paul A. O'Gorman , Harriet G. Orr , Katy L. Peat , Andreas F. Prein , David Pritchard , Christoph Schär , Ashish Sharma , Peter A. Stott , Roberto Villalobos-Herrera , Gabriele Villarini , Conrad Wasko , Michael F. Wehner , Seth Westra , Anna Whitford,Towards advancing scientific knowledge of climate change impacts on short-duration rainfall extremes,Phil. Trans. R. Soc. A,2021, https://doi.org/10.1098/rsta.2019.0542
  23. Gaetani, M., Pohl, B., Alvarez Castro, M. C., Flamant, C., Formenti, P.,A weather regime characterisation of winter biomass aerosol transport from southern Africa,Atmospheric Chemistry and Physics,2021, https://doi.org/10.5194/acp-21-16575-2021
  24. Cesarini, L. Figueiredo, R., Monteleone, B., Martina, M. ,The potential of machine learning for weather index insurance,NHESS,2021, https://doi.org/10.5194/nhess-21-2379-2021
  25. Arosio M., Cesarini L., Martina M.L.V.,Assessment of the Disaster Resilience of Complex Systems: The Case of the Flood Resilience of a Densely Populated City,Water,2021, https://doi.org/10.3390/w13202830
  26. Arosio M., Arrighi C., Cesarini L., Martina M.L.V.,Service Accessibility Risk (SAR) Assessment for Pluvial and Fluvial Floods in an Urban Context,Hydrology,2021, https://doi.org/10.3390/hydrology8030142

 

Line 2

  1. G. Mucedero, D. Perrone, R. Monteiro (2021) “Nonlinear static characterisation of masonry‑infilled RC building portfolios accounting for variability of infill properties”. Bulletin of Earthquake Engineering, https://doi.org/10.1007/s10518-021-01068-2
  2. D. Rodriguez, D. Perrone, A. Filiatrault, E. Brunesi (2021) “A probabilistic strong floor motion model for seismic performance assessment of non-structural building elements”. Earthquake Engineering & Structural dynamics, Vol 50 (15) pag. 4161-4179, https://doi.org/10.1002/eqe.3550
  3. G. Gabbianelli, D. Perrone, E. Brunesi, R. Monteiro (2021) “Seismic acceleration demand and fragility assessment of storage tanks installed in industrial steel moment-resisting frame structures”. Soil dynamics and earthquake engineering. https://doi.org/10.1016/j.soildyn.2021.107016
  4. D. Perrone, D. Rodriguez, A. Filiatrault, E. Brunesi, C. Beiter, R. Piccinin (2022) “A framework for the quantification of non-structural seismic performance factors”. Journal of Earthquake Engineering, https://doi.org/10.1080/13632469.2021.1991516
  5. R. Merino, D. Perrone, A. Filiatrault (2021) “Calibrated Equivalent Viscous Damping for Direct Displacement-Based Seismic Design of Suspended Piping Trapeze Restraint Installations”. Journal of Earthquake Engineering, https://doi.org/10.1080/13632469.2021.1987357
  6. Filiatrault, A., Perrone, D., Merino, R.J.J. and Calvi, G.M. 2021. “Performance-Based Seismic Design of Non-Structural Building Elements,” Journal of Earthquake Engineering, 25:2, 237-269, DOI: https://doi.org/10.1080/13632469.2018.1512910.

 

Line 3

  1. Clemett N, Carofilis Gallo WW, O’Reilly GJ, Gabbianelli G, Monteiro R. Optimal seismic retrofitting of existing buildings considering environmental impact. Engineering Structures 2022; 250: 113391. DOI: 10.1016/j.engstruct.2021.113391.
  2. Abarca, A., Monteiro, R., O'Reilly, G. J., Zuccolo, E., & Borzi, B. (2021). Evaluation of intensity measure performance in the regional assessment of reinforced concrete bridge inventories. Structures and Infrastructures. doi:10.1080/15732479.2021.1979599
  3. Shahnazaryan D, O’Reilly GJ, Monteiro R. Story loss functions for seismic design and assessment: Development of tools and application. Earthquake Spectra 2021: 875529302110235. DOI: 10.1177/87552930211023523
  4. Ozsarac, V., Monteiro, R., and Calvi, G. M. (2021). Probabilistic seismic assessment of reinforced concrete bridges using simulated records. Structure and Infrastructure Engineering, 1–21. doi:10.1080/15732479.2021.1956551
  5. Karimzadeh S., Ozsarac V., Askan A., and Erberik M. A. (2019). Use of simulated ground motions for the evaluation of energy response of simple structural systems, Soil Dynamics and Earthquake Engineering, 123, 525-542. doi:10.1016/j.soildyn.2019.05.024
  6. Ozsarac V., Karimzadeh S., Askan A., and Erberik M. A. (2021). Seismic demands of bare and base-isolated steel frames for real against simulated records of a past earthquake. Structure and Infrastructure Engineering, 1–16. doi: 10.1080/15732479.2021.1895227
  7. Calvi G.M., Moratti M., Scattarreggia N., Ozsarac, V., Calvi P.M., Pinho R. (2021) Numerical Investigations on the Collapse of the Morandi Bridge. Developments in International Bridge Engineering. Springer Tracts on Transportation and Traffic, vol 17. Springer, Cham. doi:10.1007/978-3-030-59169-4_1
  8. Ozsarac V., Brunesi E., and Nascimbene R. (2021). Earthquake-induced nonlinear sloshing response of aboveground steel tanks with damped or undamped floating roof. Soil Dynamics and Earthquake Engineering, 144, 106673. doi: 10.1016/j.soildyn.2021.106673.
  9. Mucedero G, Perrone D, Monteiro R. Nonlinear static characterisation of masonry-infilled RC building portfolios accounting for variability of infill properties. Bulletin of Earthquake Engineering 2021; 19(6): 2597–2641. DOI: 10.1007/s10518-021-01068-2.
  10. Mucedero G, Perrone D, Brunesi E, Monteiro R. Numerical Modelling and Validation of the Response of Masonry Infilled RC Frames Using Experimental Testing Results. Buildings 2020; 10(10): 182. DOI: 10.3390/buildings10100182.
  11. Gabbianelli G. Applied Element Modelling of Warping Effects in Thin-Walled C-Shaped Steel Sections. Buildings 2021; 11(8): 328. DOI: 10.3390/buildings11080328.
  12. Shahnazaryan D, O’Reilly GJ. Integrating expected loss and collapse risk in performance-based seismic design of structures. Bulletin of Earthquake Engineering 2021; 19(2): 987–1025. DOI: 10.1007/s10518-020-01003-x.
  13. Perdomo C, Monteiro R. Extension of displacement‐based simplified procedures to the seismic loss assessment of multi‐span RC bridges. Earthquake Engineering & Structural Dynamics 2021; 50(4): 1101–1124. DOI: 10.1002/eqe.3389.
  14. Gallo WWC, Gabbianelli G, Monteiro R. Assessment of Multi-Criteria Evaluation Procedures for Identification of Optimal Seismic Retrofitting Strategies for Existing RC Buildings. Journal of Earthquake Engineering 2021: 1–34. DOI: 10.1080/13632469.2021.1878074.
  15. Kechidi, S., Castro, J.M., Monteiro, R., Marques, M., Yelles, K., Bourahla, N. and Hamdache, M. (2021) Development of exposure datasets for earthquake damage and risk modelling: the case study of northern Algeria, Bulletin of Earthquake Engineering, 19(12), 5253–5283.
  16. O’Reilly GJ. Limitations of Sa(T1) as an intensity measure when assessing non-ductile infilled RC frame structures. Bulletin of Earthquake Engineering 2021; 19(6): 2389–2417. DOI: 10.1007/s10518-021-01071-7.
  17. O’Reilly GJ. Seismic intensity measures for risk assessment of bridges. Bulletin of Earthquake Engineering 2021; 19(9): 3671–3699. DOI: 10.1007/s10518-021-01114-z.
  18. O’Reilly GJ, Calvi GM. A seismic risk classification framework for non-structural elements. Bulletin of Earthquake Engineering 2021; 19(13): 5471–5494. DOI: 10.1007/s10518-021-01177-y.
  19. Calvi GM, O’Reilly GJ, Andreotti G. Towards a practical loss‐based design approach and procedure. Earthquake Engineering & Structural Dynamics 2021; 50(14): 3741–3753. DOI: 10.1002/eqe.3530.
  20. Zuccolo E, O’Reilly GJ, Poggi V, Monteiro R. haselREC: an automated open-source ground motion record selection and scaling tool. Bulletin of Earthquake Engineering 2021; 19(14): 5747–5767. DOI: 10.1007/s10518-021-01214-w.
  21. Andreotti G, Calvi GM. Nonlinear soil effects on observed and simulated response spectra. Earthquake Engineering & Structural Dynamics 2021: eqe.3535. DOI: 10.1002/eqe.3535.
  22. Calvi GM, Moratti M, Dacarro F, Andreotti G, Bolognini D. Feasibility study for in-situ dynamic testing of structures and geotechnical systems. Engineering Structures 2021; 235: 112085. DOI: 10.1016/j.engstruct.2021.112085.
  23. Hassan A., Song B., Galasso C., Kanvinde A., Seismic Performance of Dissipative Column Base Plate Connections With Ductile Anchor Rods, ASCE Journal of Structural Engineering (in press).
  24. Gentile R., Galasso C., Surrogate probabilistic seismic demand modelling of inelastic SDoF systems for efficient earthquake risk applications, Earthquake Engineering & Structural Dynamics, https://doi.org/10.1002/eqe.3576 (in press).
  25. Sevieri G., Gentile R., Galasso C., A multi-fidelity Bayesian framework for robust seismic fragility assessment, Earthquake Engineering & Structural Dynamics, https://doi.org/10.1002/eqe.3552.
  26. Nettis A., Gentile R., Raffaele D., Uva G., Galasso C., Cloud Capacity Spectrum Method: Accounting for Record-to-Record Variability in Fragility Analysis Using Nonlinear Static Procedures, Soil Dynamics and Earthquake Engineering, 150: 106829, https://doi.org/10.1016/j.soildyn.2021.106829 (November 2021).
  27. Gentile R., Galasso C., Simplicity versus accuracy trade-off in estimating seismic fragility of existing reinforced concrete buildings, Soil Dynamics and Earthquake Engineering, 144: 106678, https://doi.org/10.1016/j.soildyn.2021.106678 (May 2021).
  28. Goggins J, Jiang Y, Broderick BM, Salawdeh S, O’Reilly GJ, Elghazouli AY, et al. Shake Table Testing of Self‐Centring Concentrically Braced Frames. Ce/Papers 2021; 4(2–4): 1949–1956. DOI: 10.1002/cepa.1508.
  29. Sullivan TJ, Saborio-Romano D, O’Reilly GJ, Welch DP, Landi L. Simplified Pushover Analysis of Moment Resisting Frame Structures. Journal of Earthquake Engineering 2021; 25(4): 621–648. DOI: 10.1080/13632469.2018.1528911.
Testo

Line 1

  1. Papaioannou, N., Distel, E., Oliveira, E., Gabriel, C., Frydas I., Anesti, O., Attignon, E., Aggerbeck, M., Horvat, M., Barouki, R., Sariiannis, D., Karakitsios, S. Multi-omics analysis reveals that co-exposure to phthalates and metals disturbs urea cycle and choline metabolism. Environmental Research (2021) 192, 110041.
  2. Novak, R., Kocman, D., Robinson, J.A., Kanduč, T., Sarigiannis, D., Džeroski, S., Horvat, M. Low-cost environmental and motion sensor data for complex activity recognition: proof of concept. Engineering Proceedings (2020) 2,54; doi:10.3390/ecsa-7-08194.
  3. Goumenou, M., Sarigiannis, D., Tsatsakis, A., Anesti, O., Docea, A. O., Petrakis, D., Tsoukalas, D., Kostoff, R., Rakitskii, V., Spandidos, D. A., Aschner, M., Calina, D., 2020. COVID‑19 in Northern Italy: An integrative overview of factors possibly influencing the sharp increase of the outbreak (Review). Mol Med Rep. 22, 20-32.
  4. Skalny, A. V., Lima, T. R. R., Ke, T., Zhou, J.-C., Bornhorst, J., Alekseenko, S. I., Aaseth, J., Anesti, O., Sarigiannis, D. A., Tsatsakis, A., Aschner, M., Tinkov, A. A., 2020. Toxic metal exposure as a possible risk factor for COVID-19 and other respiratory infectious diseases. Food and Chemical Toxicology. 146, 111809.
  5. Trivizakis, E., Tsiknakis, N., Vassalou, E. E., Papadakis, G. Z., Spandidos, D. A., Sarigiannis, D., Tsatsakis, A., Papanikolaou, N., Karantanas, A. H., Marias, K., 2020. Advancing Covid‑19 differentiation with a robust preprocessing and integration of multi‑institutional open‑repository computer tomography datasets for deep learning analysis. Exp Ther Med. 20, 78.
  6. Frydas, I. S., Kermenidou, M., Tsave, O., Salifoglou, A., Sarigiannis, D. A., 2020. Unraveling the blood transcriptome after real-life exposure of Wistar-rats to PM2.5, PM1 and water-soluble metals in the ambient air. Toxicology Reports. 7, 1469-1479.
  7. Papaioannou, N., Distel, E., Oliveira, E., Gabriel, C., Frydas I., Anesti, O., Attignon, E.,  Aggerbeck, M., Horvat, M., Barouki, R., Sarigiannis, D., Karakitsios, S. Multi-omics analysis reveals that co-exposure to phthalates and 1 metals disturbs urea cycle and choline metabolism. Environmental Research (2020), in press.
  8. Sarigiannis, D., Papaioannou, N., Handakas, E., Anesti, O., Polanska, K., Hanke, W.., Salifoglou, A, Gabriel, C., Karakitsios, S. Neurodevelopmental exposome: the effect of in utero co-exposure to heavy metals and phthalates on child neurodevelopment. Environmental Research (2020), in press.
  9. Kermenidou, M., Karakitsios, S., Sarigiannis, D. Sources of oxidative stress induced by ambient air PMx. Environmental Research (2020), in press.
  10. Sarigiannis, D., Chapizanis, D., Petridis, I., Kougioumtzoglou, A., Kermenidou, M., Sarigiannis, G., Gotti, A., Karakitsios, S. Refining PM exposure using low-cost portable 2 sensor data and human respiratory tract 3 deposition modelling. Journal of Exposure Science and Environmental Epidemiology (2020), in press.
  11. Anesti O., Papaioannou N., Gabrie C., Dzhedzheia V., Petridis I., Dickinson M., Horvat M.,  Snoj Tratnik J.,  Tsatsakis A., Karakitsios S., Sarigiannis A. An exposome connectivity paradigm for the mechanistic assessment of the effects of prenatal and early life exposure to metals on neurodevelopment. Frontiers in Public HEALTH (2020), in press.
  12. Chapizanis, D., Karakitsios, S., Gotti, A., Sarigiannis, D. Assessing personal exposure using Agent Based Modelling informed by sensors technology. Environmental Research (2020), in press.
  13. Sarigiannis, D., Handakas, E.J., Karakitsios, S, Gotti, A. Life cycle assessment of municipal waste management options. Environmental Research (2020), in press.
  14. Papadaki, K., Karakitsios, S., Sarigiannis, D. Modeling of the total elimination half life for environmental chemicals. Environmental Research (2020), in press.
  15. Chaika, V., Pikula, K., Vshivkova, T., Zakharenko, A., Reva, G., Drozdov, K., Vardavas, A. I., Stivaktakis, P. D., Nikolouzakis, T. K., Stratidakis, A. K., Kokkinakis, M. N., Kalogeraki, A., Burykina, T., Sarigiannis, D. A., Kholodov, A., Golokhvast, K. The toxic influence and biodegradation of carbon nanofibers in freshwater invertebrates of the families Gammaridae, Ephemerellidae, and Chironomidae. Toxicology Reports (2020) 7, 947-954.
  16. Saraga, D., Maggos, T., Degrendele, C., Klánová, J., Horvat, M., Kocman, D., Kanduč, T., Garcia, S., Peteira, R. F., Gómez, P. M., Manousakas, M., Bairachtari, K., Eleftheriadis, K., Kermenidou, M., Karakitsios, S., Gotti, A., Sarigiannis, D. Multi-city comparative PM2.5 source apportionment for fifteen sites in Europe: The ICARUS project. Science of The Total Environment (2020) 141855.
  17. Karakitsios, S., Busker, R., Tjärnhage, T., Armand, P., Dybwad, M., Nielsen, M.F., Burman, J., Burke, J., Brinek, J., Bartzis, J., Maggos, T., Theocharidou, M., Gattinesi, P., Giannopoulos, G., Sarigiannis, D. Challenges on detection, identification and monitoring of indoor airborne chemical-biological agents. Safety Science (2020) 129, doi.org/10.1016/j.ssci.2020.104789
  18. Goumenou, M., Sarigiannis, D., Tsatsakis, A., Anesti, O., Docea, A.O., Petrakis, D., Tsoukalas, D., Kostoff, R., Rakitskii, V., Spandidos, D.A., Aschner, M., Calina, D. Covid‑19 in Northern Italy: An integrative overview of factors possibly influencing the sharp increase of the outbreak (Review). Molecular Medicine Reports (2020) 22 (1):20-32
  19. Sarigiannis, D.Α., Karakitsios, S.P., Handakas, E., Gotti, A. Development of a generic lifelong physiologically based biokinetic model for exposome studies. Environmental Research (2020) 185, doi.org/10.1016/j.envres.2020.109307
  20. Izquierdo, R., García Dos Santos, S., Borge, R., Paz, D.D.L., Sarigiannis, D., Gotti, A., Boldo, E. Health impact assessment by the implementation of Madrid City air-quality plan in 2020. Environmental Research (2020) 183, doi.org/10.1016/j.envres.2019.109021
  21. Novak, R., Kocman, D., Robinson, J.A., Kanduč, T., Sarigiannis, D., Horvat, M. Comparing airborne particulate matter intake dose assessment models using low-cost portable sensor data. Sensors (Switzerland) (2020) 20 (5), doi.org/10.3390/s20051406
  22. Kholodov, A., Zakharenko, A., Drozd, V., Chernyshev, V., Kirichenko, K., Seryodkin, I., Karabtsov, A., Olesik, S., Khvost, E., Vakhnyuk, I., Chaika, V., Stratidakis, A., Vinceti, M., Sarigiannis, D., Hayes, A.W., Tsatsakis, A., Golokhvast, K. Identification of cement in atmospheric particulate matter using the hybrid method of laser diffraction analysis and Raman spectroscopy. Heliyon (2020) 6 (2), doi.org/10.1016/j.heliyon.2020.e03299
  23. Pourchet, M., Debrauwer, L., Klanova, J., Price, E.J., Covaci, A., Caballero-Casero, N., Oberacher, H., Lamoree, M., Damont, A., Fenaille, F., Vlaanderen, J., Meijer, J., Krauss, M., Sarigiannis, D., Barouki, R., Le Bizec, B., Antignac, J.-P. Suspect and non-targeted screening of chemicals of emerging concern for human biomonitoring, environmental health studies and support to risk assessment: from promises to challenges and harmonization issues. Environment International (2020) (in print).
  24. Arosio, M.; Martina, M.L. V.; Figueiredo, R. The whole is greater than the sum of its parts: a holistic graph-based assessment approach for natural hazard risk of complex systems. Nat. Hazards Earth Syst. Sci. 2020, 20, 521–547, doi:10.5194/nhess-20-521-2020.
  25. Arosio, M.; Martina, M.L. V.; Creaco, E.; Figueiredo, R. Indirect Impact Assessment of Pluvial Flooding in Urban Areas Using a Graph-Based Approach: The Mexico City Case Study. Water 2020, 12, 1753, doi:10.3390/w12061753.
  26. Galuppini, G.; Quintilliani, C.; Arosio, M.; Barbero, G.; Manenti, S.; Petaccia, G.; Todeschini, S.; Ciaponi, C.; Martina, M.; Creaco, E. A unified framework for the assessment of urban flash flood hazard in the city of Monza. 2019, 1–24
  27. Monteleone, B., Bonaccorso, B., and Martina, M.L.V.: A Joint Probabilistic Index for Objective Drought               Identification: The Case Study of Haiti, Nat. Hazards Earth Syst. Sci.  20: 471-87,                  https://doi.org/10.5194/nhess-20-471-2020, 2020

 

Line 2

  1. D. Perrone, E. Brunesi, A. Filiatrault, R. Nascimbene (2020) “Probabilistic estimation of floor response spectra in masonry infilled reinforced concrete building portfolio”. Engineering Structures, 202(1), 109842, https://doi.org/10.1016/j.engstruct.2019.109842 
  2. D. Perrone, A. Filiatrault, S. Peloso, E. Brunesi, C. Beiter, R. Piccinin (2020) “Experimental seismic performance evaluation of suspended piping restraint installations”. Bulletin of Earthquake Engineering, 18(4), 1499-1524, DOI 10.1007/s10518-019-00755-5
  3. R. Merino, D. Perrone, A. Filiatrault (2020) “Consistent floor response spectra for performance-based seismic design of non-structural elements”. Earthquake Engineering and Structural Dynamics, https://doi.org/10.1002/eqe.3236
  4. D. Perrone, G.J. O’Reilly, R. Monteiro, A. Filiatrault (2020) “Assessing seismic risk in typical Italian school buildings: from in-situ survey to loss estimation”. International Journal Disaster Risk Reduction, 44, 101448, doi.org/10.1016/j.ijdrr.2019.101448
  5. D. Perrone, E. Brunesi, A. Filiatrault, S. Peloso, R. Nascimbene, C. Beiter, R. Piccinin (2020) “Seismic numerical modelling of suspended piping trapeze restraint installations based on component testing”. Bulletin of Earthquake Engineering, 18 (7), DOI: 10.1007/s10518-020-00832-0.
  6. Chalarca, A. Filiatrault, D. Perrone (2020) “Seismic demand on acceleration-sensitive nonstructural components in viscously damped braced frames. Journal of Structural Engineering, 146(9), 04020190-1-14, DOI: 10.1061/(ASCE)ST.1943-541X.0002770.  
  7. W. Carofilis, D. Perrone, G.J. O’Reilly, R. Monteriro, A. Filiatrault (2020) “Seismic retrofit of existing school buildings in Italy: Performance evaluation and loss estimation”. Engineering Structures, 225: 111243.
  8. G. Mucedero, D. Perrone, D. Perrone, E. Brunesi, R. Monteiro (2020) “Numerical modelling and validation of masonry infilled RC frames using experimental testing results”. Buildings, 10(10), 182.
  9. G. Gabbianelli, D. Perrone, E. Brunesi, R. Monteiro (2020) “Seismic Acceleration and Displacement Demand Profiles of Non-Structural Elements in Hospital Buildings”. Buildings, 10(12), 243, https://doi.org/10.3390/buildings10120243
  10. D. Rodriguez, D. Perrone, A. Filiatrault (2020) “A framework for quantifying seismic performance factors for non-structural elements”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan, Paper N° 2k-0003, 12 p.
  11. D. Perrone, A. Filiatrault, E. Brunesi, R. Nascimbene, C. Beiter, R. Piccinin (2020) “Seismic performance of suspended piping restraint installations”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan, Paper N° 2h-0004, 12 p.
  12. W. Carofilis, D. Perrone, G.J. O’Reilly, R. Monteiro, A. Filiatrault (2020) “Seismic assessment of school building in Italy: retrofit and risk classification”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan, Paper N° 3g-0006, 12 p
  13. R.J. Merino, D. Perrone, A. Filiatrault (2020) “Equivalent viscous damping for nonstructural building elements”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan, Paper N° 2k-0004, 12 p.
  14. Filiatrault, R.J. Merino, D. Perrone, G.M. Calvi (2020) “Displacement-based seismic design of non-structural building elements”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan Paper N° 2k-0033, 12 p.
  15. Chalarca, A. Filiatrault, D. Perrone (2020) “Earthquake economic losses in moment-resisting steel frames equipped with fluid viscous dampers”. Proceedings 17th World Conference on Earthquake Engineering, 13-18 September Sendai, Japan, Paper N° 2g-0003, 12 p.

 

Line 3

  1. Nafeh AMB, O’Reilly GJ, Monteiro R. Simplified seismic assessment of infilled RC frame structures. Bulletin of Earthquake Engineering 2020; 18(4): 1579–1611. DOI: 10.1007/s10518-019-00758-2.
  2. O’Reilly GJ, Calvi GM. Quantifying seismic risk in structures via simplified demand–intensity models. Bulletin of Earthquake Engineering 2020; 18(5): 2003–2022. DOI: 10.1007/s10518-019-00776-0.
  3. Perrone D, O’Reilly GJ, Monteiro R, Filiatrault A. Assessing seismic risk in typical Italian school buildings: From in-situ survey to loss estimation. International Journal of Disaster Risk Reduction 2020; 44: 101448. DOI: 10.1016/j.ijdrr.2019.101448.
  4. Cyclic model with damage assessment of longitudinal joints in segmental tunnel linings. Tunnelling and Underground Space Technology 103 (2020) 103472. https://doi.org/10.1016/j.tust.2020.103472
  5. O’Reilly GJ, Monteiro R, Nafeh AMB, Sullivan TJ, Calvi GM. Displacement-Based Framework for Simplified Seismic Loss Assessment. Journal of Earthquake Engineering 2020; 24(sup1): 1–22. DOI: 10.1080/13632469.2020.1730272.
  6. Design of laterally loaded pile-columns considering SSI effects: Strengths and weaknesses of 3D, 2D, and 1D nonlinear analysis. Earthquake engineering and structural dynamics. doi.org/10.1002/eqe.3379
  7. W. Carofilis, D. Perrone, G.J. O’Reilly, R. Monteriro, A. Filiatrault (2020) “Seismic retrofit of existing school buildings in Italy: Performance evaluation and loss estimation”. Engineering Structures, 225: 111243.
  8. Perdomo, C., Abarca, A., Monteiro, R. (2020) Estimation of Seismic Expected Annual Losses for Multi-Span Continuous RC Bridge Portfolios using a Component Level Approach, Journal of Earthquake Engineering. In-Press.
  9. Perdomo, C., Monteiro, R., Sucuoğlu, H. (2020) Development of Fragility Curves for Single-Column RC Italian Bridges using Nonlinear Static Analysis, Journal of Earthquake Engineering. In-Press.
  10. Shahnazaryan D, O’Reilly GJ. Integrating expected loss and collapse risk in performance-based seismic design of structures. Bulletin of Earthquake Engineering 2021; 19(2): 987–1025. DOI: 10.1007/s10518-020-01003-x.
  11. Silva, A., Castro, J.M., Monteiro, R. (2020) A Rational Approach to the Conversion of FEMA P-58 Seismic Repair Costs to Europe, Earthquake Spectra, 36(3), 1607-1618.
  12. Perdomo, C., Monteiro, R. (2020) Simplified Damage Models for Circular Section Reinforced Concrete Bridge Columns, Engineering Structures, 217, 110794.
  13. Mucedero, G., Perrone, D., Brunesi, E., Monteiro, R. (2020) Numerical Modelling and Validation of the Response of Masonry Infilled RC Frames Using Experimental Testing Results, Buildings, 10, 182.
  14. Perdomo, C., Monteiro, R. (2020) Extension of Displacement-Based Simplified Procedures to Seismic Loss Assessment of Multi-Span RC Bridges, Earthquake Engineering and Structural Dynamics. In Press.
  15. Gabbianelli, G., Perrone, D., Brunesi, E., Monteiro, R. (2020) Seismic Acceleration and Displacement Demand Profiles of Non-Structural Elements in Hospital Buildings, Buildings, 10, 243.
  16. Assessment of Multi-criteria evaluation procedures for identification of optimal retrofitting strategies for RC school buildings. Journal of Earthquake Engineering. In Press.
  17. Mucedero G., Perrone D., Monteiro R. Nonlinear static characterisation of masonry-infilled RC building portfolios accounting for variability of infill properties. Bulletin of Earthquake Engineering. In press.
  18. V. Ozsarac, S. Karimzadeh, A. Askan, and M. A. Erberik. Seismic demands of bare and base-isolated steel frames for real against simulated records of a past earthquake. Structure and Infrastructure Engineering. In press.
  19. Huang C., Tarbali K., Galasso C., A region-specific ground motion model for inelastic spectral displacement considering spatial correlation properties, Seismological Research Letters, https://doi.org/10.1785/0220200249 (in press).
  20. Aljawhari K., Gentile R., Freddi F., Galasso C., Effects of Ground-motion Sequences on the Vulnerability of Case-Study Reinforced Concrete Frames, Bulletin of Earthquake Engineering, https://doi.org/10.1007/s10518-020-01006-8 (in press). [Open Access]
  21. Gentile R., Galasso C., Hysteretic energy-based state-dependent fragility for ground motion sequences, Earthquake Engineering & Structural Dynamics, https://doi.org/10.1002/eqe.3387 (in press). [Open Access]
  22. Gentile R., Galasso C., Pampanin S., Material uncertainty vs joint structural detailing: relative effect on the seismic fragility of reinforced concrete frames, ASCE Journal of Structural Engineering, 147(4): 04021007, https://doi.org/10.1061/(ASCE)ST.1943-541X.0002917 (April 2021).
Testo

Line 1

  1. Arosio Marcello, Martina Mario, Rui Figueiredo, “The whole is greater than the sum of its parts: a holistic graph-based assessment approach for natural hazard risk of complex systems”, accepted for publication in NHESS, 2019
  2. Monteleone Beatrice, Mario Martina, Brunella Bonaccorso, “A joint probabilistic index for objective drought identification: the case study of Haiti”, accepted for publication in NHESS, 2019
  3. Monteleone, Beatrice, and Mario Martina. "Remote-sensing based model for drought identification." EGU General Assembly Conference Abstracts. Vol. 20. 2018.
  4. Arosio, M., and M. Martina. "Improving disaster risk assessment by means of graph theory." XXXVI Convegno Nazionale di Idraulica e Costruzioni Idrauliche. ITA, 2018.
  5. Arosio, Marcello, and Mario Martina. "The use of Graph Theory to improve disaster risk assessment." EGU General Assembly Conference Abstracts. Vol. 20. 2018.
  6. Arosio, M., et al. "Simplified pluvial flood risk assessment in a complex urban environment by means of a dynamic coupled hydrological-hydraulic model: case study of Mexico City." 5th IAHR Europe Congress—New Challenges in Hydraulic Research and Engineering. Aronne Armanini, Elena Nucci, 2018.
  7. Figueiredo, R., Martina, M. L., Stephenson, D. B., & Youngman, B. D. (2018). A Probabilistic Paradigm for the Parametric Insurance of Natural Hazards. Risk Analysis, 38(11), 2400-2414.
  8. Dell’Acqua, Fabio, et al. "A Novel Strategy for Very-Large-Scale Cash-Crop Mapping in the Context of Weather-Related Risk Assessment, Combining Global Satellite Multispectral Datasets, Environmental Constraints, and In Situ Acquisition of Geospatial Data." Sensors 18.2 (2018): 591.
  9. Vecere, Annibale, et al. "Toward near real-time flood loss estimation: model structure and data requirements." EGU General Assembly Conference Abstracts. Vol. 20. 2018.
  10. Figueiredo, R., Schröter, K., Weiss-Motz, A., Martina, M. L., & Kreibich, H. (2018). Multi-model ensembles for assessment of flood losses and associated uncertainty. Natural Hazards and Earth System Sciences, 18(5), 1297-1314.
  11. Dottori, Francesco, Mario Lloyd Virgilio Martina, and Rui Figueiredo. "A methodology for flood susceptibility and vulnerability analysis in complex flood scenarios." Journal of Flood Risk Management 11 (2018): S632-S645.
  12. Onida, M., Faravelli, M., Gotti, A., Sarigiannis, D. Communicating multi-hazard health risk through a web-GIS platform: a case-study. Fresenius Environmental Bulletin (2019), 762.

 

Line 2

  1. D. Perrone, A. Filiatrault, S. Peloso, E. Brunesi, C. Beiter, R. Piccinin (2019) “Experimental seismic performance evaluation of suspended piping restraint installations”. Bulletin of Earthquake Engineering, DOI 10.1007/s10518-019-00755-5.
  2. D. Perrone, E. Brunesi, A. Filiatrault, R. Nascimbene (2019) “Probabilistic Estimation of Floor Response Spectra in Masonry Infilled Reinforced Concrete Building Portfolio”. Engineering Structures, https://doi.org/10.1016/j.engstruct.2019.109842 
  3. D. Perrone, G.J. O’Reilly, R. Monteiro, A. Filiatrault (2019) “Assessing seismic risk in typical Italian school buildings: from in-situ survey to loss estimation”. International Journal Disaster Risk Reduction, 44, 101448, doi.org/10.1016/j.ijdrr.2019.101448 
  4. R. Merino, D. Perrone, A. Filiatrault (2019) “Consistent floor response spectra for performance-based seismic design of non-structural elements”. Earthquake Engineering and Structural Dynamics, https://doi.org/10.1002/eqe.3236
  5. B. Chalarca, A. Filiatrault, D. Perrone (2019) D. Perrone, A. Filiatrault (2019) “Floor Acceleration Demand on Steel Moment Resisting Frame Buildings Retrofitted with Linear and Nonlinear Viscous Dampers”. Proceeding Fourth International Workshop on the Seismic Performance of Non-Structural Elements, 22-23 May 2019, Pavia, Italy, pp. 573-589, ISBN 978-88-85701-12-0, DOI 10.7414/4sponse.ID.16
  6. D. Perrone, A. Filiatrault (2019) “Improving the seismic performance of non-structural elements using Building Information Modelling”. Proceeding Fourth International Workshop on the Seismic Performance of Non-Structural Elements, 22-23 May 2019, Pavia, Italy, pp. 501-512, ISBN 978-88-85701-12-0, DOI 10.7414/4sponse.ID.5
  7. R.J. Merino Vela, D. Perrone, A. Filiatrault (2019) “Estimating consistent relative displacement and absolute acceleration floor response spectra in elastic buildings”. Proceeding Fourth International Workshop on the Seismic Performance of Non-Structural Elements, 22-23 May 2019, Pavia, Italy, pp. 513-526, ISBN 978-88-85701-12-0, DOI 10.7414/4sponse.ID.4
  8. D. Perrone, E. Brunesi, F. Dacarro, S. Peloso, A. Filiatrault (2019) “Seismic assessment and qualification of non-structural elements in Europe: a critical review”. Proceeding Fourth International Workshop on the Seismic Performance of Non-Structural Elements, 22-23 May 2019, Pavia, Italy, pp. 549-5559, ISBN 978-88-85701-12-0, DOI 10.7414/4sponse.ID.10
  9. B. Chalarca, A. Filiatrault, D. Perrone (2019) “Seismic performance of steel moment-resisting frame retrofitted with linear and nonlinear viscous dampers”. Proceedings 16th World conference on seismic isolation, energy dissipation and active control of structures, Saint Petersburg – Russia, 1-6 July 2019.
  10. R.J. Merino Vela, D. Perrone, A. Filiatrault (2019) “Force-based VS displacement-based seismic design of non-structural elements”. Proceedings XVIII ANIDIS 2019 L’ingegneria sismica in Italia, Ascoli Piceno – Italia, 15-19 September 2019
  11. D. Perrone, E. Brunesi, S. Peloso (2019) “Shake table testing for seismic performance evaluation of non-structural elements”. Proceeding 7th ECCOMAS Thematic Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, Crete, 24-26 June 2019.

 

Line 3

  1. Calvi, G. M., O’Reilly, G. J., and Andreotti, G. [2019] “Re-visiting Earthquake Resistant Design,” 12th Canadian Conference on Earthquake Engineering, Quebec, Canada.
  2. Calvi, G. M., and Andreotti, G. [2019] “Effects of Local Soil, Magnitude and Distance on Empirical Response Spectra for Design,” Journal of Earthquake Engineering, DOI: 10.1080/13632469.2019.1703847.
  3. O’Reilly, G. J., and Calvi, G. M. [2019] “Conceptual seismic design in performance-based earthquake engineering,” Earthquake Engineering & Structural Dynamics, Vol. 48, No.4, pp. 389–411 DOI: 10.1002/eqe.3141.
  4. Shahnazaryan, D., O’Reilly, G. J., and Monteiro, R. [2019] “Using direct economic losses and collapse risk for seismic design of RC buildings,” COMPDYN 2019 - 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, Crete Island, Greece.
  5. O’Reilly, G. J., and Calvi, G. M. [2020] “Quantifying seismic risk in structures via simplified demand–intensity models,” Bulletin of Earthquake Engineering DOI: 10.1007/s10518-019-00776-0.
  6. Nafeh, A. M. B., O’Reilly, G. J., and Monteiro, R. [2019] “Simplified seismic assessment of infilled RC frame structures,” Bulletin of Earthquake Engineering DOI: 10.1007/s10518-019-00758-2.
  7. O’Reilly, G. J., Monteiro, R., Nafeh, A. M. B., Sullivan, T. J., and Calvi, G. M. [2019] “Displacement-Based Framework for Simplified Seismic Loss Assessment,” Journal of Earthquake Engineering (Accepted with Minor Revisions)
  8. Perrone, D., O’Reilly, G. J., Monteiro, R., and Filiatrault, A. [2019] “Assessing seismic risk in typical Italian school buildings: From in-situ survey to loss estimation,” International Journal of Disaster Risk Reduction, p. 101448 DOI: 10.1016/j.ijdrr.2019.101448.
  9. O’Reilly, G. J., and Monteiro, R. [2019] “Probabilistic models for structures with bilinear demand-intensity relationships,” Earthquake Engineering & Structural Dynamics, Vol. 48, No.2, pp. 253–268 DOI: 10.1002/eqe.3135.
  10. Monteiro, R., Perdomo, C., Sucuoglu, H. (2019) Evaluation of different approaches for computation of expected annual seismic losses of RC bridge portfolios. Proceedings of the 5th International Conference on Earthquake Engineering and Seismology (5ICEES), Ankara, Turkey, October 8-11, 2019.
  11. Perdomo, C., Monteiro, R., Sucuoglu, H. (2019) Seismic Risk Assessment of Multi-Span Bridges Using Nonlinear Static Procedures. COMPDYN - Proceedings of the 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering, Crete, Greece, June 24-26, 2019.
Testo

Line 1

  1. Kohrangi, M., Danciu, L., and P Bazzurro (2018). “Comparison between outcomes of the 2014 Earthquake Hazard Model of the Middle East (EMME14) and National Seismic Design Codes: The case of Iran”, Journal of Soil Dynamics and Earthquake Engineering, Vol. 114, pp. 348-361, November.

 

Line 2

  1. Filiatrault, A., Perrone, D., Merino, R., Calvi, G.M. 2018. “Performance-Based Seismic Design of Non-Structural Building Elements”, Journal of Earthquake Engineering, https://doi.org/10.1080/13632469.2018.1512910

 

Line 3

  1. Calvi GM. Revisiting design earthquake spectra. Earthquake Engineering & Structural Dynamics 2018; 47(13): 2627–2643. DOI: 10.1002/eqe.3101.
  2. Calvi GM, Rodrigues D, Silva V. Introducing new design spectra derived from Italian recorded ground motions 1972 to 2017. Earthquake Engineering & Structural Dynamics 2018; 47(13): 2644–2660. DOI: 10.1002/eqe.3102.
  3. O’Reilly GJ, Monteiro R. Probabilistic models for structures with bilinear demand-intensity relationships. Earthquake Engineering & Structural Dynamics 2019; 48(2): 253–268. DOI: 10.1002/eqe.3135.
  4. O’Reilly GJ, Calvi GM. Conceptual seismic design in performance-based earthquake engineering. Earthquake Engineering & Structural Dynamics 2018. DOI: 10.1002/eqe.3141.
  5. O’Reilly GJ, Calvi GM. Simplified performance-based seismic verification of RC frame structures. Submitted to Earthquake Engineering and Structural Dynamics.