X. Yang, M. Koehl, and P. Grussenmeyer, Automating Parametric Modelling From Reality Based Data by Revit API Development. Book Chapter, pp.307-325, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02128043

, Publications in the international conferences with oral presentations, abstract reviewed proceedings published in the International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences

X. Yang, M. Koehl, and P. Grussenmeyer, Mesh-to-BIM: from segmented mesh elements to BIM model with limited parameters, ISPRS-International Archives of the

. Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2, 1213-1218, 2018.

X. Yang, M. Koehl, and P. Grussenmeyer, Parametric Modelling of As-built Beam Framed Structure in BIM Environment. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2/W3, pp.651-657, 2017.

X. Yang, M. Koehl, P. Grussenmeyer, and H. Macher, Complementarity of Historic Building Information Modelling and Geographic Information Systems, ISPRSInternational Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLI/B5, pp.437-443, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02128021

F. H. References-abanda, B. Kamsu-foguem, and J. H. Tah, BIM-New rules of measurement ontology for construction cost estimation. Engineering Science and Technology, an International Journal, vol.20, issue.2, pp.443-459, 2017.

C. Achille, A. Adami, S. Chiarini, S. Cremonesi, F. Fassi et al., UAV-based photogrammetry and integrated technologies for architectural applications: methodological strategies for the after-quake survey of vertical structures in Mantua (Italy), Sensors, issue.7, pp.15520-15539, 2015.

M. Acierno, S. Cursi, D. Simeone, and D. Fiorani, Architectural heritage knowledge modelling: An ontology-based framework for conservation process, Journal of Cultural Heritage, vol.24, pp.124-133, 2017.

A. Alamouri and L. Pecchioli, Retriving information through navigating in historical Baalbek, 5th International 3D GeoInfo Conference, pp.81-85, 2010.

S. Al-kheder, N. Haddad, L. Fakhoury, and S. Baqaen, A GIS analysis of the impact of modern practices and polices on the urban heritage of Irbid, Jordan. Cities, vol.26, issue.2, pp.81-92, 2009.

M. Ali and Y. Mohamed, A method for clustering unlabeled BIM objects using entropy and TF-IDF with RDF encoding, Advanced Engineering Informatics, vol.33, pp.154-163, 2017.

, American Institute of Architects, AIA Contract Document G202-2013. Building Information Modeling Protocol Form, 2013.

F. I. Apollonio, M. Gaiani, and Z. Sun, 3D modeling and data enrichment in digital reconstruction of architectural heritage. ISPRS Archives, pp.43-48, 2013.

Y. Arayici, Towards building information modelling for existing structures, Structural Survey, vol.26, issue.3, pp.210-222, 2008.

P. Arias, J. Carlos-caamaño, H. Lorenzo, and J. Armesto, 3D modeling and section properties of ancient irregular timber structures by means of digital photogrammetry, Computer Aided Civil and Infrastructure Engineering, vol.22, issue.8, pp.597-611, 2007.

J. Armesto, I. Lubowiecka, C. Ordóñez, and F. I. Rial, FEM modeling of structures based on close range digital photogrammetry, Automation in Construction, vol.18, issue.5, pp.559-569, 2009.

K. Arroyo-ohori, A. Diakité, T. Krijnen, H. Ledoux, and J. Stoter, Processing BIM and GIS models in practice: experiences and recommendations from a GeoBIM project in the Netherlands, ISPRS International Journal of Geo-Information, vol.7, issue.8, p.311, 2018.

M. R. Asl, S. Zarrinmehr, M. Bergin, and W. Yan, BPOpt: A framework for BIM-based performance optimization, Energy and Buildings, vol.108, pp.401-412, 2015.

A. D. Atkinson, J. J. Blasco, and J. D. Bejarano, Applied 3D Photogrammetric Studies for the Historical Heritage of Extremadura (Spain), ISPRS Archives, XXXVIII, issue.5, pp.51-54, 2010.

P. F. Aubin, Renaissance Revit: Creating Classical Architecture with Modern Software, vol.457, 2013.

A. Baik, R. Yaagoubi, and J. Boehm, Integration of Jeddah Historical BIM and 3D GIS for Documentation and Restoration of Historical Monument, ISPRS Archives, XL-5/W7, pp.29-34, 2015.

L. Barazzetti, F. Banfi, R. Brumana, and M. Previtali, Creation of parametric BIM objects from point clouds using NURBS. The Photogrammetric Record, vol.30, pp.339-362, 2015.

L. Barazzetti, F. Banfi, R. Brumana, G. Gusmeroli, M. Previtali et al., Cloud-to-BIM-to-FEM: Structural simulation with accurate historic BIM from laser scans, Simulation Modelling Practice and Theory, vol.57, pp.71-87, 2015.

M. Bassier, G. Hadjidemetriou, M. Vergauwen, N. Van-roy, and E. Verstrynge, Implementation of Scan-to-BIM and FEM for the documentation and analysis of heritage timber roof structures, Euro-Mediterranean Conference, pp.79-90, 2016.

S. Becker and N. Haala, Grammar supported facade re-construction from mobile lidar mapping. ISPRS Archives, XXXVIII, pp.229-234, 2009.

F. Bernardini and H. Rushmeier, The 3D model acquisition pipeline, Computer Graphics Forum, vol.21, issue.2, pp.149-172, 2002.

C. Bernardino, S. Davardoust, and A. Osello, Structural calculations by horizontal and vertical interoperability for the redevelopment of existing buildings. Heritage and Technology Mind Knowledge Experience, vol.56, pp.650-658, 2015.

C. Bertolini-cestari, S. Invernizzi, T. Marzi, and A. Spano, Numerical survey, analysis and assessment of past interventions on historical timber structures: the roof of valentino castle, pp.87-97, 2016.

F. Biljecki, H. Ledoux, and J. Stoter, An improved LOD specification for 3D building models. Computers, Environment and Urban Systems, vol.59, pp.25-37, 2016.

P. Birch, S. Browne, V. Jennings, A. Day, and D. Arnold, Rapid procedural-modelling of architectural structures, Proceedings of the 2001 conference on virtual reality, archeology, and cultural heritage, pp.187-196, 2002.

S. Boeykens, C. Himpe, and B. Martens, A Case Study of Using BIM in Historical Reconstruction: The Vinohrady Synagogue in Prague, Digital Physicality | Physical Digitality, vol.1, pp.729-738, 2012.

M. Boudhaim, Optical and thermal performance of complex fenestration systems in the context of building information modelling, 2018.
URL : https://hal.archives-ouvertes.fr/tel-02164735

H. Boulaassal, T. Landes, P. Grussenmeyer, and F. Tarsha-kurdi, Automatic segmentation of building facades using terrestrial laser data. ISPRS Archives, XXXVI, pp.65-70, 2007.
URL : https://hal.archives-ouvertes.fr/halshs-00264839

R. Brumana, D. Oreni, B. Cuca, L. Binda, P. Condoleo et al., Strategy for integrated surveying techniques finalized to interpretive models in a byzantine church, International Journal of Architectural Heritage, vol.8, issue.6, pp.886-924, 2014.

R. Cacciotti, J. Valach, P. Kune?, M. ?er?anský, M. Bla?ko et al., Monument damage information system (MONDIS): An ontological approach to cultural heritage documentation, ISPRS Annals, pp.55-60, 2013.

P. Casu and C. Pisu, BIM Application in Documenting and Recreating Lost Architectural Heritage. IGI Global Handbook of Research on Visual Computing and Emerging Geometrical Design Tools, pp.144-173, 2016.

E. Cerutti, F. Noardo, and A. Spanò, Architectural Heritage Semantic Data Managing and Sharing in GIS, Proceedings of the 1st International Conference on Geographical Information Systems Theory, Applications and Management, pp.121-128, 2015.

M. J. Chapman, B. Norton, J. M. Taylor, and D. J. Lavery, The reduction in errors associated with ultrasonic non-destructive testing of timber arising from differential pressure on and movement of transducers, Construction and Building Materials, vol.20, pp.841-848, 2006.

H. M. Cheng, W. B. Yang, and Y. N. Yen, BIM applied in historical building documentation and refurbishing. ISPRS Archives, pp.85-90, 2015.

H. L. Chi, X. Wang, and Y. Jiao, BIM-enabled structural design: impacts and future developments in structural modelling, analysis and optimisation processes, Archives of Computational Methods in Engineering, vol.22, issue.1, pp.135-151, 2015.

A. Costanzo, M. Minasi, G. Casula, M. Musacchio, and M. F. Buongiorno, Combined use of terrestrial laser scanning and IR Thermography applied to a historical building, Sensors, vol.15, issue.1, pp.194-213, 2014.

S. Cursi, D. Simeone, and I. Toldo, Computer-Aided Architectural Design Futures. The Next City -New Technologies and the Future of the, Built Environment, vol.527, pp.383-401, 2015.

R. De-laat and L. Van-berlo, Integration of BIM and GIS: The development of the CityGML GeoBIM extension, Advances in 3D geo-information sciences, pp.211-225, 2011.

L. De-luca, C. Busayarat, C. Stefani, P. Véron, and M. Florenzano, A semantic-based platform for the digital analysis of architectural heritage, Computers & Graphics, vol.35, issue.2, pp.227-241, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00942884

L. De-luca, P. Veron, and M. Florenzano, Reverse engineering of architectural buildings based on a hybrid modeling approach, Computers & Graphics, vol.30, issue.2, pp.160-176, 2006.
URL : https://hal.archives-ouvertes.fr/halshs-00263488

M. Del-giudice and A. Osello, BIM for cultural heritage, ISPRS Archives, XL-5/W2, pp.225-229, 2013.

Y. Deng, J. C. Cheng, and C. Anumba, Mapping between BIM and 3D GIS in different levels of detail using schema mediation and instance comparison, Automation in Construction, vol.67, pp.1-21, 2016.

L. Díaz-vilariño, B. Conde, S. Lagüela, and H. Lorenzo, Automatic detection and segmentation of columns in as-built buildings from point clouds, Remote Sensing, vol.7, issue.11, pp.15651-15667, 2015.

J. Diethrich, Modélisation tridimensionnelle du monument antique du Meisenbachschloessel de Sparsbach, 2017.

M. Doerr, The CIDOC conceptual reference module: an ontological approach to semantic interoperability of metadata. AI magazine, vol.24, p.75, 2003.

S. Donkers, H. Ledoux, J. Zhao, and J. Stoter, Automatic conversion of IFC datasets to geometrically and semantically correct CityGML LOD3 buildings, Transactions in GIS, vol.20, issue.4, pp.547-569, 2015.

C. Dore and M. Murphy, Integration of HBIM and 3D GIS for digital heritage modelling. Digital Documentation, pp.22-23, 2012.

C. Dore and M. Murphy, Semi-Automatic Modelling of Building Façades with Shape Grammars Using Historic Building Information Modelling. ISPRS Archives, XL-5/W1, pp.57-64, 2013.

C. Dore and M. Murphy, Current state of the art historic building information modelling. ISPRS Archives, XLII-2/W5, pp.185-192, 2017.

P. Drap, D. Merad, B. Hijazi, L. Gaoua, M. M. Nawaf et al., Underwater photogrammetry and object modeling: A case study of xlendiwreck in malta, Sensors, vol.15, pp.30351-30384, 2015.

P. Drap, O. Papini, E. Pruno, M. Nucciotti, and G. Vannini, Ontology-Based Photogrammetry Survey for Medieval Archaeology: Toward a 3D Geographic Information System, 2017.

. Geosciences, , vol.7, p.93

K. Dylla, B. Frischer, P. Müller, A. Ulmer, and S. Haegler, Rome reborn 2.0: A case study of virtual city reconstruction using procedural modeling techniques, Computer Graphics World, vol.16, issue.6, pp.62-66, 2008.

S. F. El-hakim, J. A. Beraldin, M. Picard, and G. Godin, Detailed 3D reconstruction of largescale heritage sites with integrated techniques, IEEE Computer Graphics and Applications, vol.24, issue.3, pp.21-29, 2004.

S. El-hakim, J. A. Beraldin, F. Remondino, M. Picard, L. Cournoyer et al., Using terrestrial laser scanning and digital images for the 3D modelling of the Erechteion, Acropolis of Athens. DMACH Conference Proceedings, pp.3-16, 2008.

M. El-mekawy, A. Östman, and I. Hijazi, A unified building model for 3D urban GIS, ISPRS International Journal of Geo-Information, vol.1, issue.2, pp.120-145, 2012.

. Esri, What is GIS, 2016.

S. Fai and J. Rafeiro, Establishing an Appropriate Level of Detail (LoD) for a Building Information Model (BIM)-West Block, Parliament Hill, Canada. ISPRS Annals, vol.2, issue.5, pp.123-130, 2014.

A. Fryskowska and J. Stachelek, A no-reference method of geometric content quality analysis of 3D models generated from laser scanning point clouds for HBIM, Journal of Cultural Heritage, 2018.

S. Garagnani and A. M. Manferdini, Parametric accuracy: Building Information Modeling process applied to the cultural heritage preservation, ISPRS Archives, 5/W1, pp.87-92, 2013.

A. Georgopoulos and C. Ioannidis, Photogrammetric and surveying methods for the geometric recording of archaeological monuments, FIG Working Week, pp.22-27, 2004.

A. Georgopoulos and E. K. Stathopoulou, Data Acquisition for 3D Geometric Recording: State of the Art and Recent Innovations, Heritage and Archaeology in the Digital Age, pp.1-26, 2017.

E. Gigliarelli and G. Quattrone, Shared solutions to tackle restoration restrictions and requirements for cultural landscape and the sustainable conservation of cultural heritage, Euro-Mediterranean Conference, pp.321-331, 2014.

A. Gil, DIGITAL RECONSTRUCTIONS: A methodology for the study, preservation and dissemination of Architectural Heritage, 2016.

L. Gimenez, J. L. Hippolyte, S. Robert, F. Suard, and K. Zreik, Reconstruction of 3D building information models from 2D scanned plans, Journal of Building Engineering, vol.2, pp.24-35, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01864141

F. Girbacia, S. Butnariu, A. Orman, and C. Postelnicu, Virtual restoration of deteriorated religious heritage objects using augmented reality technologies, European Journal of Science and Theology, vol.9, issue.2, pp.223-231, 2013.

. Gps-3d-modelling,

G. Gröger, T. H. Kolbe, C. Nagel, and K. H. Häfele, OGC City Geography Markup Language (CityGML) Encoding Standard, 2012.

G. Gröger and L. Plümer, CityGML-Interoperable semantic 3D city models. ISPRS Journal of Photogrammetry and Remote Sensing, vol.71, pp.12-33, 2012.

P. Grussenmeyer, T. Landes, T. Voegtle, and K. Ringle, Comparison methods of terrestrial laser scanning, photogrammetry and tachometry data for recording of cultural heritage buildings, ISPRS Archives, XXXVI/B5, pp.213-218, 2008.

S. Haegler, M. Pascal, and V. G. Luc, Procedural modeling for digital cultural heritage, Journal on Image and Video Processing, vol.7, 2009.

J. Höhle, Oblique aerial images and their use in cultural heritage documentation, ISPRS Archives, XL-5/W2, pp.349-354, 2013.

A. Hor, A. Jadidi, and G. Sohn, BIM-GIS integrated geospatial information model using semantic web and RDF graphs, ISPRS Annals, pp.73-79, 2016.

, Recommendations for the analysis, conservation and structural restoration of architectural heritage, ICOMOS, vol.37, 2003.

, francais/ressources/charters-and-standards/165-icomos-charter-principles-for-the-analysisconservation-and-structural-restoration-of-architectural-heritage

Y. Jung and M. Joo, Building information modelling (BIM) framework for practical implementation, Automation in construction, vol.20, issue.2, pp.126-133, 2011.

Y. E. Kalay, D. Schaumann, S. W. Hong, and D. Simeone, Beyond BIM: Next generation building information modeling to support form, function, and use of buildings, Building Information Modeling: BIM in Current and Future Practice, pp.321-335, 2014.

E. P. Karan, J. Irizarry, and J. Haymaker, BIM and GIS Integration and Interoperability Based on Semantic Web Technology, Journal of Computing in Civil Engineering, vol.30, issue.3, p.4015043, 2016.

K. M. Kensek, Integration of Environmental Sensors with BIM: case studies using Arduino, Dynamo, and the Revit API. Informes de La Construcción, vol.66, p.44, 2014.

K. Kim, H. Kim, W. Kim, C. Kim, J. Kim et al., Integration of ifc objects and facility management work information using Semantic Web. Automation in Construction, vol.87, pp.173-187, 2018.

L. Klein, N. Li, and B. Becerik-gerber, Imaged-based verification of as-built documentation of operational buildings. Automation in Construction, vol.21, pp.161-171, 2012.

M. Koehl and P. Grussenmeyer, 3D model for historic reconstruction and archaeological knowledge dissemination: the Niedermunster Abbey's project, pp.325-330, 2008.

M. Koehl, A. Viale, and S. Reeb, A Historical timber frame model for diagnosis and documentation before building restoration, International Journal of 3-D Information Modeling, vol.4, issue.4, pp.34-63, 2015.

T. H. Kolbe, Representing and exchanging 3D city models with CityGML, 3D geoinformation sciences, pp.15-31, 2009.

U. Krispel, S. Christoph, and U. Torsten, A Survey of Algorithmic Shapes, Remote Sensing, vol.7, issue.10, pp.12763-12792, 2015.

D. F. Laefer and L. Truong-hong, Toward automatic generation of 3D steel structures for building information modelling, Automation in Construction, vol.74, pp.66-77, 2017.

A. V. Leonov, M. N. Anikushkin, A. V. Ivanov, S. V. Ovcharov, A. E. Bobkov et al., Laser scanning and 3D modeling of the Shukhov hyperboloid tower in Moscow, Journal of Cultural Heritage, vol.16, issue.4, pp.551-559, 2015.

K. Li, S. J. Li, Y. Liu, W. Wang, and C. Wu, Coordination between understanding historic buildings and BIM modelling: a 3D-output oriented and typological data capture method, ISPRS Archives, XL-5/W7, pp.283-288, 2015.

C. J. Lin, The STG pattern-application of a "Semantic-Topological-Geometric" information conversion pattern to knowledge-based modeling in architectural conceptual design, Computer-Aided Design and Applications, vol.14, issue.3, pp.313-323, 2017.

F. J. López, P. M. Lerones, J. Llamas, J. Gómez-garcía-bermejo, and E. Zalama, A framework for using point cloud data of heritage buildings toward geometry modeling in a BIM Context: A case study on Santa Maria La Real De Mave Church, International Journal of Architectural Heritage, vol.11, issue.7, pp.965-986, 2017.

F. J. López, P. M. Lerones, J. Llamas, J. Gómez-garcía-bermejo, and E. Zalama, A Review of Heritage Building Information Modeling (H-BIM). Multimodal Technologies and Interaction, vol.2, p.21, 2018.

Y. C. Lu, T. Y. Shih, and Y. N. Yen, Research on historic bim of built heritage in taiwan-a case study of Huangxi academy, ISPRS Archives, issue.2, pp.615-622, 2018.

M. Ludwig, G. Herbst, D. Rieke-zapp, R. Rosenbauer, S. Rutishauser et al., The advantages of parametric modeling for the reconstruction of historic buildings, The example of the in war destroyed church of St. Catherine (Katharinenkirche) in Nuremberg. ISPRS Archives, pp.161-165, 2013.

Y. P. Ma, C. C. Hsu, M. C. Lin, Z. W. Tsai, and J. Y. Chen, Parametric workflow (BIM) for the repair construction of traditional historic architecture in Taiwan. ISPRS Archives, XL-5/W7, pp.315-322, 2015.

H. Macher, T. Landes, and P. Grussenmeyer, From point clouds to building information models: 3d semi-automatic reconstruction of indoors of existing buildings, Applied Sciences, vol.7, issue.10, p.1030, 2017.

B. Martens and H. Peter, Developing systematics regarding virtual reconstruction of Synagogues, ACADIA 2002 Conference Proceedings, pp.349-356, 2002.

P. Merrell and M. Dinesh, Model synthesis: a general procedural modeling algorithm, IEEE Transactions on Visualization and Computer Graphics, vol.17, issue.6, pp.715-728, 2011.

T. Messaoudi, P. Véron, G. Halin, and L. De-luca, An ontological model for the realitybased 3D annotation of heritage building conservation state, Journal of Cultural Heritage, vol.29, pp.100-112, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01982887

É. Meyer, P. Grussenmeyer, J. P. Perrin, A. Durand, and P. Drap, A web information system for the management and the dissemination of Cultural Heritage data, Journal of Cultural Heritage, vol.8, issue.4, pp.396-411, 2007.
URL : https://hal.archives-ouvertes.fr/halshs-00264404

C. Mirarchi, A. Pavan, F. De-marco, X. Wang, and Y. Song, Supporting Facility Management Processes through End-Users' Integration and Coordinated BIM-GIS Technologies, ISPRS International Journal of Geo-Information, vol.7, issue.5, p.191, 2018.

P. Müller, T. Vereenooghe, A. Ulmer, and G. L. Van, Automatic reconstruction of Roman housing architecture, Proceedings of the International Workshop on Recording, Modeling and Visualization of Cultural Heritage, pp.287-297, 2005.

M. Murphy, E. Mcgovern, and S. Pavia, Parametric vector modelling of laser and image surveys of 17th century classical architecture in Dublin, VAST, pp.27-29, 2007.

M. Murphy, E. Mcgovern, and S. Pavia, Historic Building Information Modelling-Adding intelligence to laser and image based surveys of European classical architecture. ISPRS journal of photogrammetry and remote sensing, vol.76, pp.89-102, 2013.

M. Murphy, E. Mcgovern, and S. Pavia, Historic building information modelling (HBIM), Structural Survey, vol.27, issue.4, pp.311-327, 2009.

M. Murphy, E. Mcgovern, and S. Pavia, Historic building information modelling-adding intelligence to laser and image based surveys, ISPRS Archives, XXXVIII-5/W16, pp.1-7, 2011.

A. Murtiyoso, P. Grussenmeyer, and T. Freville, Close range UAV accurate recording and modeling of, ISPRS Archives, XLII-2/W3, pp.519-526, 2017.

A. Murtiyoso, M. Koehl, P. Grussenmeyer, and T. Freville, Acquisition and processing protocols for UAV images: 3D modeling of historical buildings using photogrammetry, ISPRS Annals, pp.163-170, 2017.

P. Musialski, P. Wonka, D. G. Aliaga, M. Wimmer, L. Van-gool et al., A survey of urban reconstruction, Computer Graphics Forum, vol.32, issue.6, pp.146-177, 2013.

M. P. Nepal, S. Staub-french, R. Pottinger, and J. Zhang, Ontology-Based Feature Modeling for Construction Information Extraction from a Building Information Model, Journal of Computing in Civil Engineering, vol.27, issue.5, pp.555-569, 2013.

Z. Noh and M. S. Sunar, A review on 3D reconstruction for augmented reality in virtual heritage system, Learning by Playing, pp.50-61, 2009.

D. Oreni, From 3D content models to HBIM for conservation and management of built heritage, International Conference on Computational Science and its Applications, pp.344-357, 2013.

D. Oreni, R. Brumana, A. Georgopoulos, and B. Cuca, HBIM for conservation and management of built heritage: Towards a library of vaults and wooden bean floors, ISPRS Annals, pp.215-221, 2013.

D. Oreni, R. Brumana, F. Banfi, L. Bertola, L. Barazzetti et al., Beyond crude 3D models: from point clouds to historical building information modeling via NURBS, Euro-Mediterranean Conference, pp.166-175, 2014.

A. Osello, A. Acquaviva, A. Pellegrino, E. Candelari, G. Chiesa et al.,

M. &-noussan, Multidisciplinary team activity using BIM and interoperability. A PhD course experience at Politecnico di Torino, Proc. Int. UNESCO Forum Univ. Heritage Le Vie Dei Mercanti, pp.880-889, 2013.

J. Park, BIM-based parametric design methodology for modernized Korean traditional buildings, Journal of Asian Architecture and Building Engineering, vol.10, issue.2, pp.327-334, 2011.

, Specification for information management for the capital/delivery phase of construction projects using building information modelling, PAS, issue.2, 2013.

P. Pauwels and W. Terkaj, EXPRESS to OWL for construction industry: Towards a recommendable and usable ifcOWL ontology. Automation in Construction, vol.63, pp.100-133, 2016.

P. Pauwels, R. Bod, D. Di-mascio, and R. Meyer, Integrating building information modelling and semantic web technologies for the management of built heritage information, Proceedings of the DigitalHeritage, vol.1, pp.481-488, 2013.

P. Pauwels, T. Krijnen, W. Terkaj, and J. Beetz, Enhancing the ifcOWL ontology with an alternative representation for geometric data, Automation in Construction, vol.80, pp.77-94, 2017.

K. Percy, S. Ward, M. S. Quintero, and T. Morrison, Integrated Digital Technologies for the Architectural Rehabilitation & Conservation of Beinn Bhreagh Hall & Surrounding Site, Canada. ISPRS Annals, vol.2, issue.5, p.235, 2015.

D. P. Pocobelli, J. Boehm, P. Bryan, J. Still, and J. Grau-bové, Building information models for monitoring and simulation data in heritage buildings, ISPRS Archives, vol.422, pp.909-916, 2018.

C. Portalés, J. L. Lerma, and C. Pérez, Photogrammetry and augmented reality for cultural heritage applications. The Photogrammetric Record, vol.24, pp.316-331, 2009.

J. Przybyla, Report on the EcoBuild Conference Introduction "Introduction to BIM-GIS intergration, 2010.

S. Pu and G. Vosselman, Knowledge based reconstruction of building models from terrestrial laser scanning data, ISPRS Journal of Photogrammetry and Remote Sensing, vol.64, issue.6, pp.575-584, 2009.

C. R. Qi, H. Su, K. Mo, and L. J. Guibas, PointNet: Deep Learning on Point Sets for 3D Classification and Segmentation, Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp.77-85, 2017.

R. Quattrini and E. Baleani, Theoretical background and historical analysis for 3D reconstruction model. Villa Thiene at Cicogna, Journal of Cultural Heritage, vol.16, issue.1, pp.119-125, 2015.

R. Quattrini, E. S. Malinverni, P. Clini, R. Nespeca, and E. Orlietti, From TLS to HBIM. High quality semantically-aware 3D modeling of complex architecture, ISPRS Archives, vol.40, issue.5, pp.367-274, 2015.

R. Quattrini, R. Pierdicca, and C. Morbidoni, Knowledge-based data enrichment for HBIM: Exploring high-quality models using the semantic-web, Journal of Cultural Heritage, vol.28, pp.129-139, 2017.

R. Quattrini, R. Pierdicca, C. Morbidoni, and E. S. Malinverni, Conservation-oriented HBIM. The BIMexplorer web tool, ISPRS Archives, XLII-5/W1, pp.275-281, 2017.

F. Remondino, Heritage recording and 3D modeling with photogrammetry and 3D scanning, Remote Sensing, vol.3, issue.6, pp.1104-1138, 2011.

F. Remondino and S. El-hakim, Image-based 3D modelling: a review. The Photogrammetric Record, vol.21, pp.269-291, 2006.

F. Remondino, D. Lo-buglio, N. Nony, and L. De-luca, Detailed primitive-based 3D modeling of architectural elements, ISPRS Archives, XXXIX/B5, pp.285-290, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01038076

F. Remondino and A. Rizzi, Reality-based 3D documentation of natural and cultural heritage sites-techniques, problems, and examples, Applied Geomatics, vol.2, issue.3, pp.85-100, 2010.

J. D. Richards, Recent trends in computer applications in archaeology, Journal of Archaeological Research, vol.6, pp.331-382, 1998.

N. Ripperda and C. Brenner, Application of a formal grammar to facade reconstruction in semiautomatic and automatic environments, Proceedings of 12th AGILE Conference on GIScience, pp.1-12, 2009.

H. Rüther, R. Bhurtha, C. Held, R. Schröder, and S. Wessels, Laser scanning in heritage documentation, Photogrammetric Engineering & Remote Sensing, vol.78, issue.4, pp.309-316, 2012.

A. Sarmiento, M. Maguregui, I. Martinez-arkarazo, M. Angulo, K. Castro et al.,

J. M. Madariaga, Raman spectroscopy as a tool to diagnose the impacts of combustion and greenhouse acid gases on properties of Built Heritage, Journal of Raman Spectroscopy, vol.39, issue.8, pp.1042-1049, 2008.

G. Saygi and F. Remondino, Management of architectural heritage information in BIM and GIS: State-of-the-art and future perspectives, International Journal of Heritage in the Digital Era, vol.2, issue.4, pp.695-713, 2013.

G. Saygi, G. Agugiaro, M. Hamamcioglu-turan, and F. Remondino, Evaluation of GIS and BIM roles for the information management of historical buildings, ISPRS Annals, pp.283-288, 2013.

M. Schwarz and P. Müller, Advanced procedural modeling of architecture, ACM Transactions on Graphics, vol.34, issue.4, 2015.

A. Scianna, S. Gristina, and S. Paliaga, Experimental BIM applications in archaeology: a work-flow. Euro-Mediterranean Conference, pp.490-498, 2014.

M. Semplici and G. Tampone, Timber structures and architectures in seismic prone areas in the UNESCO world heritage list, 15th Symposium of the IIWC, vol.10, 2006.

D. Simeone and S. Cursi, A Platform for Enriching BIM Representation Through Semantic Web Technologies, Lean and Computing in Construction Congress, vol.1, pp.423-430, 2017.

D. Simeone, S. Cursi, I. Toldo, and G. Carrara, B(H)IM Built Heritage Information Modelling Extending BIM approach to historical and archaeological heritage representation, ECAADe, vol.1, pp.613-622, 2009.

D. Simeone, S. Cursi, I. Toldo, and G. Carrara, B(H)IM-built heritage information modellingextending BIM approach to historical and archaeological heritage representation, FusionProceedings of the 32nd eCAADe Conference, vol.1, pp.613-622, 2014.

A. Sinha, J. Bai, and K. Ramani, Deep learning 3D shape surfaces using geometry images, European Conference on Computer Vision, pp.223-240, 2016.

Y. Song, X. Wang, Y. Tan, P. Wu, M. Sutrisna et al., Trends and Opportunities of BIM-GIS Integration in the Architecture, Engineering and Construction Industry: A Review from a Spatio-Temporal Statistical Perspective, ISPRS International Journal of Geo-Information, vol.6, issue.12, p.397, 2017.

F. Stanco, D. Tanasi, G. Gallo, M. Buffa, and B. Basile, Augmented perception of the pastThe case of Hellenistic Syracuse, Journal of Multimedia, vol.7, issue.2, pp.211-216, 2012.

Z. Sun and Y. K. Cao, Data processing workflows from low-cost digital survey to various applications: three case studies of Chinese historic architecture, ISPRS Archives, XL-5/W7, pp.409-416, 2015.

D. Suwardhi, S. W. Trisyanti, N. Ainiyah, M. N. Fajri, H. Hanan et al., 3D Surveying, Modeling and Geo-Information System of the New Campus of ITBIndonesia. ISPRS Archives, XLII-2/W2, pp.97-106, 2016.

D. Talaba, I. Horváth, and K. H. Lee, Special issue of Computer-Aided Design on virtual and augmented reality technologies in product design, Computer-Aided Design, vol.42, issue.5, pp.361-363, 2010.

G. Tampone and N. Ruggieri, State-of-the-art technology on conservation of ancient roofs with timber structure, Journal of Cultural Heritage, vol.22, pp.1019-1027, 2016.

P. Tang, F. Chen, X. Zhu, and W. Zhou, Monitoring cultural heritage sites with advanced multi-temporal InSAR technique: the case study of the Summer Palace, Remote Sensing, vol.8, issue.5, p.432, 2016.

C. Thomson and J. Boehm, Automatic geometry generation from point clouds for BIM, Remote Sensing, vol.7, issue.9, pp.11753-11775, 2015.

A. Tibaut, Advances in Digital Cultural Heritage, 2018.

I. Titomanlio and G. Faella, BIM and Structural Modeling: Application on Cultural Heritage, International Forum Le Vie dei Mercanti, Best Practice in Conservation Management, 2014.

I. Toldo and G. Carrara, BIM and knowledge management for building heritage, Conference: ACADIA, vol.14, pp.681-690, 2014.

C. A. Vanegas, D. G. Aliaga, P. Wonka, P. Uller, P. A. Waddell et al., Modelling the appearance and behaviour of urban spaces, Computer Graphics Forum, vol.29, issue.1, pp.25-42, 2010.

P. Wonka, M. Wimmer, F. Sillion, and W. Ribarsky, Instant architecture, Proc. Of ACM SIGGRAPH, vol.22, pp.669-677, 2003.
URL : https://hal.archives-ouvertes.fr/inria-00527500

T. C. Wu, Y. C. Lin, M. F. Hsu, N. W. Zheng, and W. L. Chen, Improving traditional building repair construction quality using historic building information modeling concept. ISPRS Archives, pp.691-694, 2013.

Z. Wu, S. Song, A. Khosla, F. Yu, L. Zhang et al., 3D ShapeNets: A Deep Representation for Volumetric Shape Modeling, Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp.1912-1920, 2015.

X. Xiong, A. Adan, B. Akinci, and D. Huber, Automatic creation of semantically rich 3D building models from laser scanner data, Automation in Construction, vol.31, pp.325-337, 2013.

X. Yang, X. Qin, J. Wang, J. Wang, X. Ye et al., Building façade recognition using oblique aerial images, Remote Sensing, vol.7, issue.8, pp.10562-10588, 2015.

O. P. Zalamea, J. Van-orshoven, and T. Steenberghen, Merging and expanding existing ontologies to cover the Built Cultural Heritage domain, Journal of Cultural Heritage Management and Sustainable Development, vol.8, issue.2, pp.162-178, 2018.

L. Zhang and R. R. Issa, Development of IFC-based construction industry ontology for information retrieval from IFC models, EG-ICE Workshop, vol.8, 2011.

G. Zotti, Tangible heritage: Production of astrolabes on a laser engraver, Computer Graphics Forum, vol.27, issue.8, pp.2169-2177, 2008.

D. Le-développement, API Revit et l'utilisation du langage visuel Dynamo sont intégrés dans le processus de modélisation HBIM

, La thèse présente des méthodes de constructions HBIM à partir de la documentation historique, de nuages de points (acquis par scanner-laser 3D), de maillage de surface et de géométrie solide

, Deux types de modèles HBIM de différents formats de "Familles

, HBIM paramétrique avec des classes "Familles" paramétriques créées manuellement, et (ii) HBIM sémantique avec des "Familles" Revit non modifiables mais directement transformées à partir de géométries maillées ou solides

, Si l'utilisateur préfère la géométrie paramétrique, un dessin manuel de "Familles" Revit est nécessaire. D'autre part, si l'utilisateur préfère la géométrie de maillage d'origine, le processus mesh-to-HBIM permettra d'optimiser les traitements en termes de temps, Les besoins des utilisateurs permettront ainsi de choisir l'une ou l'autre méthode

, Le processus de transformation de géométries vers des structures BIM a donc pu être développé sous la forme de deux variantes privilégiant respectivement la flexibilité et le réemploi mais nécessitant une modélisation fine sur des bases manuelles, d'une part, ou privilégiant le traitement de masse (nuage de points), plus rapide, tout en fournissant des modèles TQC

X. Yang, M. Koehl, and P. Grussenmeyer, Automating Parametric Modelling From Reality Based Data by Revit API Development. Book Chapter, pp.307-325, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02128043

X. Yang, M. Koehl, and P. Grussenmeyer, Mesh-to-BIM: from segmented mesh elements to BIM model with limited parameters, ISPRS-International Archives of the

. Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2, 1213-1218, 2018.

X. Yang, M. Koehl, and P. Grussenmeyer, Parametric Modelling of As-built Beam Framed Structure in BIM Environment. ISPRS-International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLII-2/W3, pp.651-657, 2017.

X. Yang, M. Koehl, P. Grussenmeyer, and H. Macher, Complementarity of Historic Building Information Modelling and Geographic Information Systems, ISPRSInternational Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XLI/B5, pp.437-443, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02128021