Authors,Author(s) ID,Title,Year,Source title,Volume,Issue,Art. No.,Page start,Page end,Page count,Cited by,DOI,Link,Affiliations,Authors with affiliations,Abstract,Author Keywords,Index Keywords,Molecular Sequence Numbers,Chemicals/CAS,Tradenames,Manufacturers,Funding Details,Funding Text 1,References,Correspondence Address,Editors,Sponsors,Publisher,Conference name,Conference date,Conference location,Conference code,ISSN,ISBN,CODEN,PubMed ID,Language of Original Document,Abbreviated Source Title,Document Type,Publication Stage,Open Access,Source,EID
"de Freitas Bello V.S., Popescu C., Blanksvärd T., Täljsten B., Popescu C.","57338405600;56272949500;20336636900;8703323300;56272949500;","Bridge management systems: Overview and framework for smart management",2021,"IABSE Congress, Ghent 2021: Structural Engineering for Future Societal Needs",,,,"1014","1022",,2,,"https://www.scopus.com/inward/record.uri?eid=2-s2.0-85119042894&partnerID=40&md5=75c4a853545c7db896e261b5018e91e0","Luleå University of Technology (LTU), Luleå, Sweden; SINTEF Narvik AS, Narvik, 8517, Norway","de Freitas Bello, V.S., Luleå University of Technology (LTU), Luleå, Sweden; Popescu, C., Luleå University of Technology (LTU), Luleå, Sweden, SINTEF Narvik AS, Narvik, 8517, Norway; Blanksvärd, T., Luleå University of Technology (LTU), Luleå, Sweden; Täljsten, B., Luleå University of Technology (LTU), Luleå, Sweden; Popescu, C., Luleå University of Technology (LTU), Luleå, Sweden, SINTEF Narvik AS, Narvik, 8517, Norway","Throughout the world, many medieval and historic bridges remain in operation. Deterioration and failures have increased in the already aging bridges due to consistent growth in traffic volume and axle loads. Therefore, the importance of Bridge Management Systems (BMS) to ensure safety of operation and maximize maintenance investments has also increased. Recent improvements in technology also contribute to the demand for optimized and more resource-efficient BMS. In this study, a literature review was performed to map current bridge management practices and systems in operation in the world. The outcomes identified Bridge Information Modelling (BrIM) and Digital Twins as novel approaches that enable efficient management of the whole lifecycle of a bridge. From these outcomes, a framework of an ideal BMS is proposed to achieve automated and smart management of bridges. © 2021 IABSE Congress, Ghent 2021: Structural Engineering for Future Societal Needs. All rights reserved.","BMS; Bridge management systems; Bridges; BrIM; Review","Deterioration; Life cycle; Maintenance; Structural design; Axle loads; Bridge information modeling; Bridge management system; Historic bridges; Information Modeling; Maintenance investments; Resource-efficient; Traffic volumes; Volume loads; Bridges",,,,,"Energimyndigheten","This work was carried out within the strategic innovation program InfraSweden2030, a joint venture by Vinnova, Formas and The Swedish Energy Agency, the work is also funded by SBUF (construction industry's organisation for research and development in Sweden) and Skanska Sweden.","Hurt, M., Schrock, S., Chapter 1 - Introduction (2016) Highway Bridge Maintenance Planning and Scheduling, pp. 1-30; Khan, M. A., (2015) Accelerated Bridge Construction, pp. 53-102. , Boston: Butterworth-Heinemann; Powers, N., Frangopol, D. M., Al-Mahaidi, R., Caprani, C., (2018) Maintenance, safety, risk, management and life-cycle performance of bridges, pp. 219-225. , London: CRC Press; Darbani, B. M., Hammad, A., Critical review of new directions in bridge management systems (2007) Computing in Civil Engineering, pp. 330-337; (2005) Bridge preservation and maintenance in Europe and South Africa, , FHWA; Mirzaei, Z., Adey, B. T., Klatter, L., Thompson, P., (2014) The IABMAS bridge management committee overview of existing bridge management systems; Helmerich, R., Niederleithinger, E., Algernon, D., Streicher, D., Wiggenhauser, H., Bridge inspection and condition assessment in Europe (2008) Transportation Research Record, 2044, pp. 31-38; Thompson, P. D., Small, E. P., Johnson, M., Marshall, A. R., The Pontis Bridge Management System (1998) Structural Engineering International, 8 (4), pp. 303-308; Gholami, M., Sam, A. R. B. M., Yatim, J. M., Assessment of bridge management system in Iran (2013) Procedia Engineering, 54, pp. 573-583; Mendonça, T., Brito, V., Milhazes, F., (2010) Aplicação de Gestão de Obras de Arte - GOA - nova geração; Moscoso, Y. F. M., (2017) Modelos de Degradação para Aplicação em Sistemas de Obras de Arte Especiais - OAEs, , PhD thesis Universidade de Brasília. Faculdade de Tecnologia; Liao, H.-K., Yau, N.-J., Development of various bridge condition indices for Taiwan bridge management system (2011) 28th International Symposium on Automation and Robotics in Construction, pp. 911-916; Safi, M., Sundquist, H., Karoumi, R., Racutanu, G., Development of the Swedish bridge management system by upgrading and expanding the use of LCC (2013) Structure and Infrastructure Engineering, 9 (12), pp. 1240-1250; Woodward, R., Cullington, D. W., Daly, A. F., Vassie, P. R., Haardt, P., Kashner, R., Astudillo, R., Cremona, C., (2001) Bridge management in Europe (BRIME) - Deliverable D14-Final Report; Brady, K. C., O'Reilly, M., Bevc, L., Znidaric, A., O'Brien, E., Jordan, R., Cost 345 - Procedures required for the assessment of highway structures - Final report European Co-operation in the Field of Scientific and Technical Research; Hallberg, D., Racutanu, G., Development of the Swedish bridge management system by introducing a LMS concept (2007) Materials and Structures, 40, pp. 627-639; Isailovic, D., Stojanovic, V., Trapp, M., Richter, R., Hajdin, R., Döllner, J., Bridge damage: Detection, IFC-based semantic enrichment and visualization (2020) Automation in Construction, 112. , (103088); Marzouk, M. M., Hisham, M., Bridge information modelling in sustainable bridge management (2011) Proceedings of the 2011 International Conference on Sustainable Design and Construction - ICSDC 2011: Integrating Sustainability Practices in the Construction Industry, pp. 457-466; Dibernardo, S., Integrated modelling systems for bridge asset management - case study (2012) Proceedings of the 2012 Structures Congress, pp. 483-493; Wan, C., Zhou, Z., Li, S., Ding, Y., Xu, Z., Yang, Z., Xia, Y., Yin, F., Development of a bridge management system based on the building information modelling technology (2019) Sustainability, 11 (4583); Zhao, Z., Gao, Y., Hu, X., Zhou, Y., Zhao, L., Qin, G., Guo, J., Han, D., Integrating BIM and IoT for smart bridge management (2019) IOP Conference Series: Earth and Environmental Science, 371. , (022034); Zhu, J., Tan, Y., Wang, X., Wu, P., BIM/GIS integration for web GIS-based bridge management (2020) Annals of GIS, 27 (1), pp. 99-109; Boddupalli, C., Sadhu, A., Rezazadeh Azar, E., Pattyson, S., Improved visualization of infrastructure monitoring data using building information modelling (2019) Structure and Infrastructure Engineering, 15 (9), pp. 1247-1263; Riveiro, B., Jauregui, D. V., Arias, P., Armesto, J., Jiang, R., An innovative method for remote measurement of minimum vertical underclearance in routine bridge inspection (2012) Automation in Construction, 25, pp. 34-40; Huthwohl, P., Brilakis, I., Borrmann, A., Sacks, R., Integrating RC bridge defect information into BIM models (2018) Journal of Computing in Civil Engineering, 32 (3), p. 04018013. , 1-04018013-14; Lu, R., Brilakis, I., Digital twinning of existing reinforced concrete bridges from labelled point clusters (2019) Automation in Construction, 105. , (102837); Borin, P., Cavazzini, F., Condition assessment of RC bridges - Integrating machine learning, photogrammetry and BIM (2019) International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, pp. 201-208. , XLII-2/W15; Morgenthal, G., Hallermann, N., Kersten, J., Taraben, J., Debus, P., Helmrich, M., Rodehorst, V., Framework for automated UAS-based structural condition assessment of bridges (2019) Automation in Construction, 97, pp. 77-95; Khajavi, S. H., Motlagh, N. H., Jaribion, A., Werner, L. C., Holmstrom, J., Digital twin: Vision, benefits, boundaries, and creation for buildings (2019) IEEE Access, 7, pp. 147406-147419; Zou, Y., Kiviniemi, A., Jones, S. W., Developing a tailored RBS linking to BIM for risk management of bridge projects (2016) Engineering, Construction and Architectural Management, 23 (6), pp. 727-750; Zou, Y., Kiviniemi, A., Jones, S. W., Walsh, J., Risk information management for bridges by integrating risk breakdown structure into 3D/4D BIM (2019) KSCE Journal of Civil Engineering, 23 (2), pp. 467-480","de Freitas Bello, V.S.; Luleå University of Technology (LTU)Sweden; email: vanessa.saback.de.freitas@ltu.se","Snijder H.H.De Pauw B.De Pauw B.van Alphen S.F.C.Mengeot P.","Allplan;et al.;Greisch;Infrabel;Royal HaskoningDHV;TUC RAIL","International Association for Bridge and Structural Engineering (IABSE)","IABSE Congress, Ghent 2021: Structural Engineering for Future Societal Needs","22 September 2021 through 24 September 2021",,172892,,,,,"English","IABSE Congr., Ghent: Struct. Eng. Future Soc. Needs",Conference Paper,"Final","",Scopus,2-s2.0-85119042894
"Saback de Freitas Bello V., Popescu C., Blanksvärd T., Täljsten B.","57388414800;56272949500;20336636900;8703323300;","Framework for Bridge Management Systems (BMS) Using Digital Twins",2022,"Lecture Notes in Civil Engineering","200 LNCE",,,"687","694",,1,"10.1007/978-3-030-91877-4_78","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85121920211&doi=10.1007%2f978-3-030-91877-4_78&partnerID=40&md5=6fdff59ca9db3312e752a9205198f0a7","Luleå University of Technology (LTU), Luleå, Sweden; SINTEF Narvik AS, Narvik, 8517, Norway","Saback de Freitas Bello, V., Luleå University of Technology (LTU), Luleå, Sweden; Popescu, C., Luleå University of Technology (LTU), Luleå, Sweden, SINTEF Narvik AS, Narvik, 8517, Norway; Blanksvärd, T., Luleå University of Technology (LTU), Luleå, Sweden; Täljsten, B., Luleå University of Technology (LTU), Luleå, Sweden","Bridge structures have significantly long life spans; many medieval and historic bridges remain in operation in the world. The concept of bridge management contains the activities related to managing bridge inspections and condition assessment, which can be gathered into a Bridge Management System (BMS). Deterioration and failures have increased over the years in the already aging bridges; therefore, the importance of BMS to ensure safety of bridge operation and maximize investments in bridge maintenance has also increased. Digital Twin (DT) technology can be applied in the construction industry to achieve smart management through the entire life cycle of structures. Unlike the aerospace and manufacturing industries, the maturity of development of DT models in the construction industry still lags behind. In this study, a literature review was initially performed to gather knowledge on the origins of the digital twin concept and current best practice focused on bridge structures. A systematic approach for the literature review is presented in the methodology. Lastly, a framework for facility management of bridge structures using digital twins is proposed. © 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.","BMS; Bridge management systems; Bridges; Digital twins; Facility management","Bridges; Construction industry; Deterioration; Life cycle; Bridge inspection; Bridge management; Bridge management system; Bridge structures; Facilities management; Historic bridges; Lifespans; Literature reviews; Long life; Office buildings",,,,,"Energimyndigheten","This work was carried out within the strategic innovation program InfraSweden2030, a joint venture by Vinnova, Formas and The Swedish Energy Agency, the work is also funded by SBUF (construction industry’s organisation for research and development in Sweden) and Skanska Sweden.","Khan, M.A., Recent developments in ABC concepts (2015) Accelerated Bridge Construction, pp. 53-102. , Khan MA, Butterworth-Heinemann, Boston, pp, ISBN 978-0-12-407224-4; Mirzaei, Z., Adey, B.T., Klatter L (2014) Thompson P (2014) the IABMAS Bridge Management Committee Overview of Existing Bridge Management Systems; Morgenthal, G., Framework for automated UAS-based structural condition assessment of bridges (2019) Autom Constr, 97, pp. 77-95; Isailovic, D., Stojanovic, V., Trapp, M., Richter, R., Hajdin, R., Döllner, J., Bridge damage: Detection, IFC-based semantic enrichment and visualization (2020) Autom Constr, 112; Popescu C, Täljsten B, Blanksvärd T, Elfgren L (2019) 3D reconstruction of existing concrete bridges using optical methods. Struct Infrastruct Eng (2019). https://doi.org/10.1080/157 32479.2019.1594315; Riveiro, B., Jauregui, D.V., Arias, P., Armesto, J., Jiang, R., An innovative method for remote measurement of minimum vertical under clearance in routine bridge inspection (2012) Autom Constr, 25, pp. 34-40; Huthwohl, P., Brilakis, I., Borrmann, A., Sacks, R., Integrating RC bridge defect information into BIM models (2018) J Comput Civil Eng, 32 (3), pp. 04018013-4018021; Ban, F., Barazzetti, L., Previtali, M., Roncoroni, F., Historic BIM: A new repository for structural health monitoring (2017) International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences-Isprs Archives, 42, pp. 269-274. , pp; Cha G, Park S, Oh T (2019) A terrestrial LiDAR-based detection of shape deformation for maintenance of bridge structures. J Constr Eng Manag 145(12) (04019075):04019075–1– 04019075–12; Borin, P., Cavazzini, F., Condition assessment of RC bridges. Integrating machine learning, photogrammetry and BIM (2019) International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences-Isprs Archives, 42, pp. 201-208. , pp; Barazzetti, L., Ban, F., Brumana, R., Previtali, M., Roncoroni, F., BIM from laser scans… not just for buildings: NURBSbased parametric modeling of a medieval bridge (2016) ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 3-5, pp. 51-56. , pp; Stavroulaki, M.E., Riveiro, B., Drosopoulos, G.A., Solla, M., Koutsianitis, P., Stavroulakis, G.E., Modelling and strength evaluation of masonry bridges using terrestrial photogrammetry and finite elements (2016) Adv Eng Softw, , https://doi.org/10.1016/j.advengsoft.2015.12.007; Popescu, C., Optical methods and wireless sensors for monitoring of bridges. In: IABSE symposium (2019) Guimaraes 2019: Towards a Resilient Built Environment Risk and Asset Management; McKenna, T., Minehane, M., O’Keefe, B., O’Sullivan, G., Ruane, K., Bridge information modelling (BrIM) for a listed viaduct (2017) In: Proceedings of the Institution of Civil Engineers: Bridge Engineering (1600007); León-Robles, C.A., Reinoso-Gordo, J.F., González-Quiñones, J.J., Heritage building information modeling (H-BIM) applied to a stone bridge (2019) ISPRS Int J Geo-Inf, 8, p. 121; Riveiro, B., González-Jorge, H., Varela, M., Jauregui, D.V., Validation of terrestrial laser scanning and photogrammetry techniques for the measurement of vertical under clearance and beam geometry in structural inspection of bridges (2013) Measurement, 46, pp. 784-794; Alani, A.M., Aboutalebi, M., Kilic, G., Integrated health assessment strategy using NDT for reinforced concrete bridges (2014) NDT E Int, 61, pp. 80-94; Abu Dabous, S., Yaghi, S., Alkass, S., Moselhi, O., (2015) Concrete Bridge Deck Condition Assessment Using IR Thermography and Ground Penetrating Radar Technologies, , 5th international/11th construction specialty conference (262; Conde, B., Ramos, L.F., Oliveira, D.V., Riveiro, B., Solla, M., Structural assessment of masonry arch bridges by combination of non-destructive testing techniques and three-dimensional numerical modelling: Application to Vilanova Bridge (2017) Eng Struct, 148, pp. 621-638; Xu, Y., Turkan, Y., BrIM and UAS for bridge inspections and management (2019) Eng Constr Archit Manag, 27 (3), pp. 785-807; Delgado, J.M.D., Brilakis, I., Middleton, C., Modelling, management, and visualization of structural performance monitoring data on BIM (2016) Proceedings of the International Conference on Smart Infrastructure and Construction, ICSIC, 2016, pp. 543-549. , pp; Davila Delgado, J.M., Butler, L.J., Gibbons, N., Brilakis, I., Elshae, M.Z.E., Middleton, C., Management of structural monitoring data of bridges using BIM (2017) Bridge Eng, 170 (10), pp. 204-218; Sacks, R., SeeBridge as next generation bridge inspection: Overview, information delivery manual and model view definition (2018) Autom Constr, 90, pp. 134-145; Omer, M., Margetts, L., Hadi Mosleh, M., Hewitt, S., Parwaiz, M., Use of gaming technology to bring bridge inspection to the office (2019) Struct Infrastruct Eng, 15 (10), pp. 1292-1307; Zhao, Z., Integrating BIM and IoT for smart bridge management (2019) IOP Conf Ser Earth Environ Sci 371(022034) (2019); Khajavi, S.H., Motlagh, N.H., Jaribion, A., Werner, L.C., Holmstrom, J., Digital twin: Vision, benefits, boundaries, and creation for buildings (2019) IEEE Access, 7 (10), pp. 147406-147419; Abu Dabous, S., Yaghi, S., Alkass, S., Moselhi, O., Concrete bridge deck condition assessment using IR thermography and ground penetrating radar technologies (2017) Autom Constr, 81, pp. 340-354; McGuire, B., Atadero, R., Clevenger, C., Ozbek, M., Bridge information modeling for inspection and evaluation (2016) J Bridge Eng, 21 (4); Boddupalli, C., Sadhu, A., Rezazadeh Azar, E., Pattyson, S., Improved visualization of infrastructure monitoring data using building information modeling (2019) Struct Infrastruct Eng, 15 (9), pp. 1247-1263; Lu, R., Brilakis, I., Digital twinning of existing reinforced concrete bridges from labelled point clusters (2019) Autom Constr, 105; Wan, C., Development of a bridge management system based on the building information modeling technology (2019) Sustainability, 11 (4583); Zhu, J., Tan, Y., Wang, X., Wu, P., BIM/GIS integration for web GIS-based bridge management (2020) Ann GIS, , https://doi.org/10.1080/19475683.2020.1743355; Lu, Q., Xie, X., Heaton, J., Parlikad, A.K., Schooling, J., From BIM towards digital twin: Strategy and future development for smart asset management (2020) Stud Comput Intell, 853, pp. 392-404; Cimino, C., Negri, E., Fumagalli, L., Review of digital twin applications in manufacturing (2019) Comput Ind, 113; Kritzinger, W., Karner, M., Traar, G., Henjes, J., Sihn, W., Digital twin in manufacturing: A categorical literature review and classification (2018) IFAC Papers Online, 51 (11), pp. 1016-1022; Andersen, J.E., Rex, S., Concrete bridge deck condition assessment using IR thermography and ground penetrating radar technologies. In: 20th congress of IABSE (2019) New York City 2019: The Evolving Metropolis; Shim, C.-S., Dang, N.-S., Lon, S., Jeon, C.-H., Development of a bridge maintenance system for prestressed concrete bridges using 3D digital twin model (2019) Struct Infrastruct Eng, 15 (10), pp. 1319-1332; Ye, C., A digital twin of bridges for structural health monitoring (2019) In: Proceedings of the 12Th International Workshop on Structural Health Monitoring (2019)","Saback de Freitas Bello, V.; Luleå University of Technology (LTU)Sweden; email: vanessa.saback.de.freitas@ltu.se","Pellegrino C.Faleschini F.Zanini M.A.Matos J.C.Casas J.R.Strauss A.",,"Springer Science and Business Media Deutschland GmbH","1st Conference of the European Association on Quality Control of Bridges and Structures, EUROSTRUCT 2021","29 August 2021 through 1 September 2021",,269849,23662557,9783030918767,,,"English","Lect. Notes Civ. Eng.",Conference Paper,"Final","",Scopus,2-s2.0-85121920211
"Zerbinatti M., Fasana S.","56043868500;36542380700;","Approaches Proposal for Tools Coordinating in Maintenance and Reuse of Architectural Heritage. A Case Study on Urban Complexes of Modern Architectural Heritage",2022,"Lecture Notes in Networks and Systems","482 LNNS",,,"2648","2658",,,"10.1007/978-3-031-06825-6_253","https://www.scopus.com/inward/record.uri?eid=2-s2.0-85138654026&doi=10.1007%2f978-3-031-06825-6_253&partnerID=40&md5=a73570faaa16fd8eb574278d2d8e49f5","Politecnico di Torino, C.so Duca degli Abruzzi, 24, Turin, Italy","Zerbinatti, M., Politecnico di Torino, C.so Duca degli Abruzzi, 24, Turin, Italy; Fasana, S., Politecnico di Torino, C.so Duca degli Abruzzi, 24, Turin, Italy","Resilience assumed at a building scale often refers to efficiency and safety aspects, while extended to the urban and territorial scale it involves (among others) safety, energy efficiency and infrastructure aspects. Actually, it seems rather more complex imagine to bridge these goals together to a reference framework for Cultural Heritage, where technical and regulatory requirements must be usefully balanced with those of enhancing and conservation and, not at least, social involvement. In this perspective, authors deal with an on-going research, referred to an emblematic example of urban environment, recently added to UNESCO’s World Heritage List: Ivrea Industrial City of XX century. Here an innovative effort in maintenance program can interpret actual urgent needed in terms of conservation, but, at the same time, it can represent an instrument to govern and coordinate future sustainable transformative and regenerative planning. This paper presents the methodological approach and first results of the research program, which final aim is to develop an integrated BIM-GIS-based tool for coordinated and sustainable redesign and maintenance of complex built heritage environments. Original identity, strictly related to local resources, are considered, with the aim to reach a renewal of perspective, to promote and enhance a circular society, not far from Olivetti's ideals, but also consistent with goals proposed in Agenda 2030. © 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.","Digital tools for re-design architectures; Digital-Twin; Innovative maintenance program; Ivrea Industrial City of XX century",,,,,,,,"Xu, X., Ding, L., Luo, H., Ma, L., From building information modeling to city information modeling (2014) J. Inf. Technol. Constr., 19, pp. 292-307; Patti, E., Ronzino, A., Osello, A., Verda, V., Acquaviva, A., Macii, E., District information modeling and energy management (2015) IT Professional, 17 (6), pp. 28-34; Murphy, M., McGovern, E., Pavia, S., Historic building information modelling (HBIM) (2009) Struct. Surv., 27 (4); Dimensions and levels of knowledge in heritage building information modelling, HBIM: The model of the charterhouse of Jerez (Cadiz, Spain) (2019) Digital App. Archaeol. Cultural Heritage., 14. , https://doi.org/10.1016/j.daach.2019.e00110; Buitrago, E., Schneider, N., Rugged LV Trench IGBT with Extreme Stability in Continuous SOA Operation: Next Generation LV Technology at Hitachi ABB Powergrids PCIM Europe Digital Days 2021; Brumana, R., Oreni, D., Raimondi, A., Georgopoulos, A., Bregianni, A., From survey to HBIM for documentation, dissemination and management of built heritage: The case study of St. Maria in Scaria d’Intelvi (2013) Digital Heritage Int. Congr. IEEE, 1, pp. 497-504; García-Valldecabres, J., Pellicer, E., Jordan-Palomar, I., BIM scientific literature review for existing buildings and a theoretical method: Proposal for heritage data management using HBIM (2016) Constr. Res. Congr., pp. 2228-2238; Brumana, R., Georgopoulos, A., Oreni, D., Raimondi, A., Bregianni, A., HBIM for documentation, dissemination and management of built heritage. The case study of St. Maria in Scaria d’Intelvi (2020) Int. J. Heritage Digital Era., 2 (3), pp. 433-451; García, E.S., García-Valldecabres, J.O.R.G.E., Blasco, M.J., The use of HBIM models as a tool for dissemination and public use management of historical architecture: A review (2018) Build. Inf. Syst. Constr. Indust., 101; Bruno, N., Roncella, R., HBIM for conservation: A new proposal for information modelling (2019) Remote Sens, 11 (15), p. 1751; Vacca, G., Quaquero, E., Pili, D., Brandolini, M., GIS-HBIM integration for the management of historical buildings (2018) Int. Arch. Photogramm. Remote. Sens. Spatial. Inf. Sci., 42 (2), pp. 1-7; Matrone, F., Colucci, E., de Ruvo, V., Lingua, A., Spanò, A., HBIM in a semantic 3D GIS database (2019) Int. Arch. Photogramm. Remote. Sens. Spatial. Inf. Sci., 42 (2), p. W11; Buitrago, E., Schneider, N., Rugged LV Trench IGBT with Extreme Stability in Continuous SOA Operation: Next Generation LV Technology at Hitachi ABB Powergrids PCIM Europe Digital Days 2021; Colucci, E., de Ruvo, V., Lingua, A., Matrone, F., Rizzo, G., HBIM-GIS integration: From IFC to cityGML standard for damaged cultural heritage in a multiscale 3D GIS (2020) Appl. Sci., 10 (4), p. 1356; Tsilimantou, E., Delegou, E.T., Nikitakos, I.A., Ioannidis, C., Moropoulou, A., GIS and BIM as integrated digital environments for modelling and monitoring of historic buildings (2020) Appl. Sci., 10 (3), p. 1078; Buitrago, E., Schneider, N., Rugged LV Trench IGBT with Extreme Stability in Continuous SOA Operation: Next Generation LV Technology at Hitachi ABB Powergrids PCIM Europe Digital Days 2021; Buitrago, E., Schneider, N., Rugged LV Trench IGBT with Extreme Stability in Continuous SOA Operation: Next Generation LV Technology at Hitachi ABB Powergrids PCIM Europe Digital Days 2021; Fiamma, P., Il B.I.M. per l’architettura tecnica: Ingegno e costruzione nell’epoca della com-plessita’. In: Ingegno e costruzione nell’epoca della complessità. Forma urbana e individ-ualità architettonica (2019) Proceedings of Col-Loqui.At.E, Turin, Italy, 2019, pp. 718-727. , Garda, E., Mele, C., Piantanida, P., (eds.) , Politecnico di Torino, Torino, ). ISBN: 978-88-85745-31-5; Megahed, N.A., Towards a theoretical framework for HBIM approach. Historic preservation and management (2015) Int. J. Archit. Res., 9, pp. 130-147; Bianchini, C., Attenni, M., Potestà, G., Regenerative design tools for the existing city: HBIM potentials (2021) Rethinking Sustainability Towards a Regenerative Economy. FC, 15, pp. 23-43. , https://doi.org/10.1007/978-3-030-71819-0_2, Andreucci, M.B., Marvuglia, A., Baltov, M., Hansen, P. (eds.), Springer, Cham; Colucci, E., Iacono, E., Matrone, F., Ventura, G.M., A BIM-GIS integrated database to support planned maintenance activities of historical built heritage (2022) Geomatics and Geospatial Technologies. CCIS, 1507, pp. 182-194. , https://doi.org/10.1007/978-3-030-94426-1_14, Borgogno-Mondino, E., Zamperlin, P. (eds.) , Springer, Cham; de Ruvo, V., Development of integrated management tools for a maintenance plan of historical heritage (2021) 9Th ARQUEOLÓGICA 2.0 and 3Rd GEORES 2021 Proceedengs, pp. 26-28. , April; Buitrago, E., Schneider, N., Rugged LV Trench IGBT with Extreme Stability in Continuous SOA Operation: Next Generation LV Technology at Hitachi ABB Powergrids PCIM Europe Digital Days 2021","Fasana, S.; Politecnico di Torino, C.so Duca degli Abruzzi, 24, Italy; email: sara.fasana@polito.it","Calabro F.Della Spina L.Pineira Mantinan M.J.",,"Springer Science and Business Media Deutschland GmbH","5th International Symposium on New Metropolitan Perspectives, NMP 2022","25 May 2022 through 27 May 2022",,282399,23673370,9783031068249,,,"English","Lect. Notes Networks Syst.",Conference Paper,"Final","",Scopus,2-s2.0-85138654026