High-speed railway tunnel monitoring using point, long gauge and distributed strain and temperature fiber optic sensors

Structural Health Monitoring (SHM) is presently having a great development. Strains and temperatures are usually the key parameters to be monitored due to their relevance when explaining structural behavior. Several types of sensors are used in SHM, but fiber optic sensors are especially interesting due to their advantages with respect to conventional sensors. In this paper, the monitoring of a high-speed train tunnel recently built in Spain using three types of fiber optic sensors developed by the authors is shown. Results given by the sensors are compared to those provided by a theoretical model built using FEM. Comparison of measurements and theoretical results confirms that the sensors reproduced remarkably well the general patterns of the tunnel structural behavior, even when strains are relatively small (around 5 mu epsilon). Finally, the paper discusses the behavior of the sensors, their measurements and their field of application which is useful for researchers and practitioners. Torres Górriz, B.; Paya-Zaforteza, I.; Barrera Vilar, D.; Alvarado, YA.; Calderón García, PA.; Loayssa Lara, A.; Sagues García, M... (2015). High-speed railway tunnel monitoring using point, long gauge and distributed strain and temperature fiber optic sensors. Informes de la Construcción. 67(538). doi:10.3989/ic.13.081