Affiliation:
1. School of Civil and Environmental Engineering, University of Technology Sydney, Ultimo, NSW 2007, Australia
Abstract
Throughout history, the implementation of structural health monitoring systems has played a crucial role in evaluating the responses of dams to environmental and human-induced threats. By continuously monitoring structural integrity and analyzing dynamic characteristics, these systems offer a robust alternative to traditional visual inspection methods, ensuring the long-term safety of dams. This paper delves into the intricate process of operational modal analysis applied to dams, encompassing data collection, preprocessing, and the utilization of diverse modal identification techniques across both time and frequency domains. Moreover, it explores innovative approaches aimed at overcoming challenges encountered in previous methodologies. Also, the evolution of automated modal identification techniques and their application in dams are investigated. It explores the advancements in this field and their implications for enhancing the efficiency and accuracy of modal analysis processes. Furthermore, this paper evaluates the effectiveness of damage detection methods in dams based on operational modal identification.
Reference157 articles.
1. On progressive damage phenomena of structures;Harte;Comput. Mech.,2000
2. Nonlinear analysis of stability of rock wedges in the abutments of an arch dam due to seismic loading;Mostafaei;Struct. Monit. Maint.,2020
3. A comparative study between pseudo-static and dynamic analyses on rock wedge stability of an arch dam;Mostafaei;Civ. Eng. J.,2018
4. Ponzo, F.C., Iacovino, C., Ditommaso, R., Auletta, G., Soldovieri, F., Bonano, M., and Cuomo, V. (2021). An advanced approach to the long term SHM of structures and transport infrastructures. Civil Structural Health Monitoring: Proceedings of CSHM-8 Workshop 8, Springer.
5. Monitoring system to provide assurance for maintenance of structures;Moriconi;Pract. Period. Struct. Des. Constr.,2010