| Smartphone-based monitoring: improving the bridges braking force model
Breveglieri, M., & Feltrin, G. (2024). Smartphone-based monitoring: improving the bridges braking force model. In J. Sandager Jensen, D. M. Frangopol, & J. Wittrup Schmidt (Eds.), Proceedings of the 12th international conference on bridge maintenance, safety and management (pp. 1646-1654). https://doi.org/10.1201/9781003483755-192 |
| Sustainable bridges - past and future reflections on a european project 2003-2007
Bell, B., Bien, J., Cremona, C., Feltrin, G., Jensen, J. S., Kiviluoma, R., … Elfgren, L. (2023). Sustainable bridges - past and future reflections on a european project 2003-2007. In IABSE congress, New Delhi 2023: engineering for sustainable development, report. IABSE congress New Delhi (pp. 690-698). International Association for Bridge and Structural Engineering (IABSE). |
| Determining braking forces on bridges using monitored traffic data and stochastic simulation
Breveglieri, M., & Feltrin, G. (2023). Determining braking forces on bridges using monitored traffic data and stochastic simulation. In M. P. Limongelli, P. F. Giordano, S. Quqa, C. Gentile, & A. Cigada (Eds.), Lecture notes in civil engineering: Vol. 433. Experimental vibration analysis for civil engineering structures. EVACES 2023 - volume 2 (pp. 100-109). https://doi.org/10.1007/978-3-031-39117-0_11 |
| Dynamic tests with hard braking heavy vehicles on a motorway bridge
Feltrin, G., & Breveglieri, M. (2023). Dynamic tests with hard braking heavy vehicles on a motorway bridge. In M. P. Limongelli, P. F. Giordano, S. Quqa, C. Gentile, & A. Cigada (Eds.), Lecture notes in civil engineering: Vol. 433. Experimental vibration analysis for civil engineering structures. EVACES 2023 - volume 2 (pp. 89-99). https://doi.org/10.1007/978-3-031-39117-0_10 |
| A sentinel node for event-driven structural monitoring of road bridges using wireless sensor networks
Feltrin, G., Popovic, N., & Wojtera, M. (2019). A sentinel node for event-driven structural monitoring of road bridges using wireless sensor networks. Journal of Sensors, 2019, 8652527 (16 pp.). https://doi.org/10.1155/2019/8652527 |
| Experimental vibration analysis for civil structures. Testing, sensing, monitoring, and control
Conte, J. P., Astroza, R., Benzoni, G., Feltrin, G., Loh, K. J., & Moaveni, B. (Eds.). (2018). Experimental vibration analysis for civil structures. Testing, sensing, monitoring, and control. Lecture notes in civil engineering: Vol. 5. 7th international conference on experimental vibration analysis of civil engineering structures. https://doi.org/10.1007/978-3-319-67443-8 |
| Tools for efficient and accurate strain cycles monitoring of metallic railway bridges with wireless sensor networks
Feltrin, G., Popovic, N., & Jalsan, K. E. (2017). Tools for efficient and accurate strain cycles monitoring of metallic railway bridges with wireless sensor networks. In SMAR proceedings. Proceedings of SMAR 2017, fourth conference on smart monitoring, assessment and rehabilitation of civil structures (p. 22 (10 pp.). |
| Modal identification and dynamic response assessment of a tensairity girder
Klis, R., Chatzi, E., Galliot, C., Luchsinger, R., & Feltrin, G. (2017). Modal identification and dynamic response assessment of a tensairity girder. Journal of Structural Engineering, 143(2), 04016165 (11 pp.). https://doi.org/10.1061/(ASCE)ST.1943-541X.0001637 |
| Event-driven strain cycle monitoring of railway bridges using a wireless sensor network with sentinel nodes
Popovic, N., Feltrin, G., Jalsan, K. E., & Wojtera, M. (2017). Event-driven strain cycle monitoring of railway bridges using a wireless sensor network with sentinel nodes. Structural Control and Health Monitoring, 24(7), e1934 (13 pp.). https://doi.org/10.1002/stc.1934 |
| Experimental modal analysis of a multi-storey light-frame timber building
Steiger, R., Feltrin, G., Weber, F., Nerbano, S., & Motavalli, M. (2017). Experimental modal analysis of a multi-storey light-frame timber building. Bulletin of Earthquake Engineering, 15(8), 3265-3291. https://doi.org/10.1007/s10518-015-9828-9 |
| Mitigation of wind-induced vibrations in long-span bridges using a distributed flap system
Boberg, K. M. (2016). Mitigation of wind-induced vibrations in long-span bridges using a distributed flap system [Doctoral dissertation, EPF Lausanne]. https://doi.org/10.5075/epfl-thesis-7069 |
| A wireless sensor network with enhanced power efficiency and embedded strain cycle identification for fatigue monitoring of railway bridges
Feltrin, G., Popovic, N., Flouri, K., & Pietrzak, P. (2016). A wireless sensor network with enhanced power efficiency and embedded strain cycle identification for fatigue monitoring of railway bridges. Journal of Sensors, 2016, 4359415 (14 pp.). https://doi.org/10.1155/2016/4359415 |
| Strain cycles monitoring of metallic railway bridges using a wireless sensor network
Feltrin, G., Popovic, N., Jalsan, K. E., & Wojtera, M. (2016). Strain cycles monitoring of metallic railway bridges using a wireless sensor network. In J. Pombo (Ed.), Proceedings of the 3rd international conference on railway technology: research, development and maintenance (p. 166 (14 pp.). Civil-Comp Press. |
| Updated braking forces for the assessment of road bridges
Martins, J., Feltrin, G., & Beyer, K. (2016). Updated braking forces for the assessment of road bridges. (Forschung im Strassenwesen, Report No.: 682). Eidgenössisches Departement für Umwelt, Verkehr, Energie und Kommunikation UVEK, Bundesamt für Strassen ASTRA. |
| Ambient and forced vibration testing of a light-frame timber building – conclusions regarding design of the lateral load resisting system
Steiger, R., Feltrin, G., Sadeghi Marzaleh, A., & Nerbano, S. (2016). Ambient and forced vibration testing of a light-frame timber building – conclusions regarding design of the lateral load resisting system. In R. Görlacher (Ed.), Proceedings. Meeting 49. International network on timber engineering research (pp. 169-184). Timber Scientific Publishing. |
| On-site dynamic testing of a light-frame timber building
Steiger, R., Feltrin, G., Weber, F., Nerbano, S., & Motavalli, M. (2016). On-site dynamic testing of a light-frame timber building. In J. Eberhardsteiner, W. Winter, A. Fadai, & M. Pöll (Eds.), WCTE 2016. World conference on timber engineering. E-book. Full papers (pp. 4105-4114). TU-MV Media Verlag GmbH. |
| Schwingungstilger – theoretische Grundlagen und praktische Anwendung
Weber, B., & Feltrin, G. (2016). Schwingungstilger – theoretische Grundlagen und praktische Anwendung (p. (18 pp.). Presented at the 19. Symposium – Bauwerksdynamik und Erschütterungsmessungen. . |
| Measuring sub-mm structural displacements using QDaedalus: a digital clip-on measuring system developed for total stations
Charalampous, E., Psimoulis, P., Guillaume, S., Spiridonakos, M., Klis, R., Bürki, B., … Feltrin, G. (2015). Measuring sub-mm structural displacements using QDaedalus: a digital clip-on measuring system developed for total stations. Applied Geomatics, 7(2), 91-101. https://doi.org/10.1007/s12518-014-0150-z |
| Einfluss des Asphaltbelages auf die Dynamik von Fussgängerbrücken aus Beton und Stahl
Feltrin, G., & Weber, B. (2015). Einfluss des Asphaltbelages auf die Dynamik von Fussgängerbrücken aus Beton und Stahl. (Report No.: 674). Eidgenössisches Departement für Umwelt, Verkehr, Energie und Kommunikation UVEK. |
| Monitoring of strain cycles on a railway bridge with a wireless sensor network
Feltrin, G., & Popovic, N. (2015). Monitoring of strain cycles on a railway bridge with a wireless sensor network. IABSE symposium report: Vol. 105. (pp. 1311-1318). Presented at the IABSE conference – structural engineering: providing solutions to global challenges. International Association for Bridge and Structural Engineering. |