PSI - Issue 64

Francesco Calabrò et al. / Procedia Structural Integrity 64 (2024) 1759–1766 Francesco Calabrò, Giovanna E. Minniti, Antonino Fotia, Raffaele Pucinotti / Structural Integrity Procedia 00 (2019) 000 – 000

1766

could lead to the establishment of standard conservation profiles, which can improve estimation models for more accurate assessments during the project feasibility phase to which the corresponding parametric costs can be associated. References Calabrò, F.: Integrated programming for the enhancement of minor historical centres. The SOSTEC model for the verification of the economic feasibility for the enhancement of unused public buildings. ArcHistoR, 2020, 13(7), pp. 1509 – 1523. DOI: 10.14633/AHR280; Scopus ID: 2 s2.0-85099515890 (2020). Calabrò, F., Della Spina, L.: Processo edilizio e stima dei costi. Inserto Speciale LaborEst n. 11/2015, pp. Calabrò, F.; Mafrici, F.; Meduri, T.; The valuation of unused public buildings in support of policies for the inner areas. The application of SostEc model in a case study in Condofuri (Reggio Calabria, Italy). In: Bevilacqua C., Calabrò F., Della Spina L. (eds.) New Metropolitan Perspectives. SMART INNOVATION, SYSTEMS AND TECHNOLOGIES, Vol. 178, 566-579; Springer. DOI: 10.1007/978-3-030-48279-4_54; Scopus ID: 2-s2.0-85091316344 Calabrò, F.; Iannone, L.; Pellicanò, R.; The historical and environmental heritage for the attractiveness of cities. the case of the Umbertine Forts of Pentimele in Reggio Calabria, Italy. In: Bevilacqua C., Calabrò F., Della Spina L. (eds.) New Metropolitan Perspectives. Smart Innovation, Systems And Technologies, Vol. 178, 1990-2004; Springer. DOI: https://doi.org/10.1007/978-3-030-48279-4_188; Scopus ID: 2-s2.0 85091287176 Nesticò, A., Moffa, R. (2018). Economic analysis and Operational Research tools for estimating productivity levels in off-site construction [Analisi economiche e strumenti di Ricerca Operativa per la stima dei livelli di produttività nell’edilizia off -site], Valori e Valutazioni, (20), pp. 107 128. DEI Tipografia del Genio Civile, Roma. Nesticò, A., Galante, M. (2015). An estimate model for the equalisation of real estate tax: A case study, International Journal of Business Intelligence and Data Mining, Vol. 10, Issue 1, pp. 19 – 32. Inderscience Enterprises Ltd., Genève, Switzerland. https://doi.org/10.1504/IJBIDM.2015.069038 D’Amato R., Stanghellini S., Stima dei Lavori. In AA.VV. Manuale di progettazione edilizia. Fondamenti, strumenti, norme. Vol. VI, Hoepli, Milano, 1995 Dandri G., Economia per ingegneri e architetti. Dei, 1999 Forte C., De Rossi B., Principi di Economia e di Estimo, Etas, Milano. Capitolo 7 – Estimo urbano (§ 7.10), 1974 Davis S. L. and Goldberg, D., The Fix We're In For: The State of Our Nation's Bridges 2013, Transportation for America, Washington, DC, USA, 2013. Fotia, A., Pucinotti, R., An automated procedure for surveillance and monitoring of steel structures - XXVIII CONGRESSO C.T.A., Francavilla al mare (CH), 2022. Fotia, A., Alvaro, M.R., Oliveto, F., Pucinotti, R., Safety Management of Existing Bridges: A Case Study. In: Calabrò, F., Della Spina, L., Piñeira Mantiñán, M.J. (eds) New Metropolitan Perspectives. NMP 2022. Lecture Notes in Networks and Systems, vol 482. Springer, Garcia, M., Rodriguez, A., Structural Deterioration Analysis: A Case Study. 2015. Journal of Building Conservation 30(4), 123 – 136; Liu, H., A Comprehensive Study on the Use of Drones in Structural Assessments. 2021. Journal of Aeronautics and Aerospace 15(2), 77 – 89; Smith, J.: Structural Health Monitoring for Heritage Buildings. Journal of Civil Engineering 25(3), 45 – 58 (2018). Brown, A., Davis, B.: Innovations in Drone-Based Structural Inspection. In: Advances in Engineering Technology. LNCS, vol. 8765, pp. 112 – 125. Springer, Heidelberg (2019). Johnson, R., Turner, M., Clark, P.: Preservation Techniques for Cultural Heritage Structures. 2nd edn. Heritage Publishers, New York (2005). White, C.: Automated Crack Detection in Masonry Structures. In: 10th International Con-ference on Structural Analysis, pp. 55 – 67. Civil Engineering Association, London (2012). Structural Monitoring Solutions, https://www.structuralmonitoring.com, last accessed 2022/01/15. Liu, H.: A Comprehensive Study on the Use of Drones in Structural Assessments. Journal of Aeronautics and Aerospace 15(2), 77 – 89 (2021). Patel, K., Jones, L.: Advancements in Photogrammetry for Structural Health Monitoring. In: International Symposium on Structural Engineering, pp. 34 – 46. Springer, Berlin (2017). Garcia, M., Rodriguez, A.: Structural Deterioration Analysis: A Case Study. Journal of Building Conservation 30(4), 123 – 136 (2015). National Institute of Standards and Technology (NIST), https://www.nist.gov, last accessed 2022/01/20. Chen, X., Wang, Y.: Smart Cities and Structural Health Monitoring. In: Smart Cities Sym-posium, pp. 89 – 102. IEEE, New York (2018). Wang, Z.: Advances in Automated Crack Recognition Algorithms. Journal of Computer Vi-sion and Pattern Recognition 5(1), 21 – 33 (2019). Gonzalez, A., Martinez, L.: Digital Twin Technology for Structural Monitoring. In: Interna-tional Conference on Digital Technologies, pp. 145 – 158. ACM, New York (2020). International Council on Monuments and Sites (ICOMOS), https://www.icomos.org, last accessed 2022/01/16. Li, Y., Kim, S.: Machine Learning Applications in Structural Health Monitoring. Journal of Intelligent Systems 18(6), 201 – 215 (2017). Heritage Conservation Society, https://www.heritageconservation.org, last accessed 2022/01/14. Wang, Q., Chen, L.: Integration of GNSS Data for Precise Georeferencing in Structural Modeling. Journal of Geospatial Engineering 12(4), 67 – 79 (2018). Codice dei Contratti Pubblici, Decreto Legislativo 18 April 2016, n. 50 Codice dei Contratti Pubblici, Decreto Legislativo 31 March 2023, n. 36