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Rico, J., Barateiro, J., Mata, J., Antunes, A. & Cardoso, E. (2019). Applying advanced data analytics and machine learning to enhance the safety control of dams. In George A. Tsihrintzis, Maria Virvou, Evangelos Sakkopoulos, Lakhmi C. Jain (Ed.), Machine learning paradigms: Applications of learning and analytics in intelligent systems. Cham: Springer.
R. João et al., "Applying advanced data analytics and machine learning to enhance the safety control of dams", in Machine learning paradigms: Applications of learning and analytics in intelligent systems, George A. Tsihrintzis, Maria Virvou, Evangelos Sakkopoulos, Lakhmi C. Jain, Ed., Cham, Springer, 2019
@incollection{joão2019_1734979030809, author = "Rico, J. and Barateiro, J. and Mata, J. and Antunes, A. and Cardoso, E.", title = "Applying advanced data analytics and machine learning to enhance the safety control of dams", chapter = "", booktitle = "Machine learning paradigms: Applications of learning and analytics in intelligent systems", year = "2019", volume = "", series = " Learning and Analytics in Intelligent Systems", edition = "", publisher = "Springer", address = "Cham", url = "https://link.springer.com/book/10.1007/978-3-030-15628-2" }
TY - CHAP TI - Applying advanced data analytics and machine learning to enhance the safety control of dams T2 - Machine learning paradigms: Applications of learning and analytics in intelligent systems AU - Rico, J. AU - Barateiro, J. AU - Mata, J. AU - Antunes, A. AU - Cardoso, E. PY - 2019 SN - 2662-3447 DO - 10.1007/978-3-030-15628-2_10 CY - Cham UR - https://link.springer.com/book/10.1007/978-3-030-15628-2 AB - The protection of critical engineering infrastructures is vital to today’s so- ciety, not only to ensure the maintenance of their services (e.g., water supply, energy production, transport), but also to avoid large-scale disasters. Therefore, technical and financial efforts are being continuously made to improve the safety control of large civil engineering structures like dams, bridges and nuclear facilities. This con- trol is based on the measurement of physical quantities that characterize the struc- tural behavior, such as displacements, strains and stresses. The analysis of monitor- ing data and its evaluation against physical and mathematical models is the strongest tool to assess the safety of the structural behavior. Commonly, dam specialists use multiple linear regression models to analyze the dam response, which is a well- known approach among dam engineers since the 1950s decade. Nowadays, the data acquisition paradigm is changing from a manual process, where measurements were taken with low frequency (e.g., on a weekly basis), to a fully automated process that allows much higher frequencies. This new paradigm escalates the potential of data analytics on top of monitoring data, but, on the other hand, increases data quality issues related to anomalies in the acquisition process. This chapter presents the full data lifecycle in the safety control of large-scale civil engineering infrastructures (focused on dams), from the data acquisition process, data processing and storage, data quality and outlier detection, and data analysis. A strong focus is made on the use of machine learning techniques for data analysis, where the common multiple linear regression analysis is compared with deep learning strategies, namely recur- rent neural networks. Demonstration scenarios are presented based on data obtained from monitoring systems of concrete dams under operation in Portugal. ER -