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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
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.
A wireless sensor system for structural health monitoring with guided ultrasonic waves and piezoelectric transducers
Dürager, C., Heinzelmann, A., & Riederer, D. (2013). A wireless sensor system for structural health monitoring with guided ultrasonic waves and piezoelectric transducers. Structure and Infrastructure Engineering, 9(11), 1177-1186. https://doi.org/10.1080/15732479.2012.671833
Vibration monitoring of a footbridge with a wireless sensor network
Feltrin, G., Jalsan, K. E., & Flouri, K. (2013). Vibration monitoring of a footbridge with a wireless sensor network. Journal of Vibration and Control, 19(15), 2285-2300. https://doi.org/10.1177/1077546313501929
Wireless vibration monitoring of a footbridge
Feltrin, G., Flouri, K., Jalsan, K., Bischoff, R., & Meyer, J. (2013). Wireless vibration monitoring of a footbridge (pp. 560-567). Presented at the EVACES' 13 – experimental vibration analysis for civil engineering structures. .