PSI - Issue 64

Alex Carpenter et al. / Procedia Structural Integrity 64 (2024) 319–326 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

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Di Lorenzo, G., Formisano, A., Krstevska, L. & Landolfo, R., 2019. Ambient vibration test and numerical investigation on the St. Giuliano church in Poggio Picenze (L'aquila, Italy). Journal of Civil Structural Health Monitoring, Volume 9, pp. 477-490. Elyamani, A., Caselles, O., Roca, P. & Clapes, J., 2016. Dynamic investigation of a large historical cathedral. Structural Control and Health Monitoring, Volume 24. Gentile, C., Ruccolo, A. & Canali, F., 2019. Continuous monitoring of the Milan Cathedral: dynamic characteristics and vibration-based SHM. Civil Structural Health Monitoring, Volume 9, pp. 671-688. Karanikoloudis, G. et al., 2021. Monitoring of Induced Groundborne Vibrations in Cultural Heritage Buildings: Miscellaneous Errors and Aliasing through Integration and Filtering. International Journal of Architectural Heritage, 15(1), pp. 205-228. Kita, A., Cavalagli, N., Venanzi, I. & Ubertini, F., 2021. A new method for earthquake-induced damage identification in historic masonry towers combining OMA and IDA. Bulletin of Earthquake Engineering, 19(12), pp. 5307-5337. Kosnik, D. E., Zhang, W. & Durango-Cohen, P. L., 2013. Application of Statistical Process Control for Structural Health Monitoring of a Historic Building. Journal of Infrastructure System, 20(1). Lima, H. F. et al., 2008. Structural Health Monitoring of the Church of Santa Casa da Misericórdia of Aveiro Using FBG Sensors. IEEE Sensors Journal, 8(7), pp. 1236-1242. Lombillo, I. et al., 2015. Structural health monitoring of a damaged church: design of an integrated platform of electronic instrumentation, data acquisition and client/server software. Structural Control and Health Monitoring, Volume 23, pp. 69-81. Lorenzoni, F. et al., 2016. Uncertainty quantification in structural health monitoring: Applications on cultural heritage buildings. Mechanical Systems and Signal Processing, Volume 66, pp. 268-281. Makoond, N., Pelà, L. & Molins, C., 2022. Robust estimation of axial loads sustained by tie-rods in historical structures using Artificial Neural Networks. Structural Health Monitoring, 22(4). Makoond, N. et al., 2020. Automated data analysis for static structural health monitoring of masonry heritage structures. Structural Control and Health Monitoring, 27(10). Marazzi, F., Tagliabue, P. & Corbani, F. M., 2011. Traditional vs innovative structural health monitoring of monumental structures: A case study. Structural Control and Health Monitoring, Volume 18, pp. 430-449. Masciotta, M., Ramos, L. F. & Lourenço, P. B., 2017. The importance of structural monitoring as a diagnosis and control tool in the restoration process of heritage structures: A case study in Portugal. Journal of Cultural Heritage, Volume 27, pp. 36-47. Mesquita, E. et al., 2018. Long-term monitoring of a damaged historic structure using a wireless sensor network. Engineering Structures, Volume 161, pp. 108-117. Murphy, P. et al., 1987. The cathedral of the Immaculate Conception, 1885-1985. Saint John, NB, Canada: Diocese of Saint John and Lingley Printing Company. Nguyen, Q. T. & Livaoğlu, R., 2023. Fundamental mode shape -based normalization scheme for damage detection of minarets: A non-model based approach. Engineering Failure Analysis, Volume 147. Pawlak, Z. M., Wyczałek, I. & Marciniak, P., 2023. Two Complementary Approaches toward Geodetic Monitoring of a Historic Wood en Church to Inspect Its Static and Dynamic Behavior. Sensors, 23(20). Perez-Gracia, V. et al., 2019. Combining ground penetrating radar and seismic surveys in the assessment of cultural heritage buildings: The study of roofs, columns, and ground of the gothic church Santa Maria del Mar, in Barcelona (Spain). Structural Control and Health Monitoring, 26(4). Potenza, F. et al., 2015. Long-term structural monitoring of the damaged Basilica S. Maria di Collemaggio through a low-cost wireless sensor network. Journal of Civil Structural Health Monitoring, Volume 5, pp. 655-676. Ramos, L. F. et al., 2010. Monitoring historical masonry structures with operational modal analysis: Two case studies. Mechanical Systems and Signal Processing, 24(5), pp. 1291-1305. Russo, S., 2012. On the monitoring of historic Anime Sante church damaged by earthquake in L'Aquila. Structural Control and Health Monitoring, Volume 20, pp. 1226-1239. Saisi, A., Gentile, C. & Ruccolo, A., 2018. Continuous monitoring of a challenging heritage tower in Monza, Italy. Civil Structural Health Monitoring, Volume 8, pp. 77-90. Salvatore, R. & Eleonora, S., 2020. Damage assessment of Nepal heritage through ambient vibration analysis and visual inspection. Structural Control and Health Monitoring, 27(5). Samuels, J. M. et al., 2011. Wireless sensor network to monitor an historic structure under rehabilitation. Journal of Civil Structural Health Monitoring, 1(3), pp. 69-78. Sánchez, A. R., Meli, R. & Chávez, M. M., 2016. Structural Monitoring of the Mexico City Cathedral (1990-2014). International Journal of Architectural Heritage, Volume 10, pp. 254-268. Spoldi, E., Ippolito, I., Stella, A. & Russo, S., 2021. Non-destructive techniques for structural characterization of cultural heritage: A pilot case study. Structural Control and Health Monitoring, 28(12). Statistics Canada, 2017. Census in Brief: Children living in low-income households, s.l.: s.n. Takhirov, S. et al., 2023. Laser Scanning and Ambient Vibration Study of Juma Mosque in Khiva (Uzbekistan) with Subsequent Finite Eement Modeling of Its Minaret. Remote Sensing, 15(6). Vincente, M., Mena, A., Mingues, J. & Gonzalez, D. C., 2023. Monitoring Horizontal Movement of Top of a Spire in Saint Mary Cathedral of Burgos via Computer Vision. International Journal of Architectural Heritage, 19(12), pp. 1405-1427. Yanik, Y. et al., 2023. Variations of natural frequencies of masonry minarets due to environmental effects. Journal of CIvil Structural Health Monitoring. Zonno, G., Aguilar, R., Boroschek, R. & Lourenço, P., 2018. Automated long-term dynamic monitoring using hierarchical clustering and adaptive modal tracking: validation and applications. Journal of Civil Structural Health Monitoring, Volume 8, pp. 791-808.