CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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22%; open (2006) Find in CUMINCAD Paper craft models from meshes , Vis. Comput. 22, 825–834

22%; open (2013) Find in CUMINCAD Modelled on Software Engineering: Flexible Parametric Models in the Practice of Architecture , PhD thesis from the Royal Melbourne Institute of Technology

22%; open (2015) Find in CUMINCAD Tactile models of elements of architectural heritage: from the building scale to the detail The next city - New technologies and the future of the built environment , [16th International Conference CAAD Futures 2015. Sao Paulo, July 8-10, 2015. Electronic Proceedings/ ISBN 978-85-85783-53-2] Sao Paulo, Brazil, July 8-10, 2015, pp. 434-446

22%; open (2015) Find in CUMINCAD Tactile models of elements of architectural heritage From the building scale to the detail , 16th International Conference CAAD Futures 2015, 2015, S?o Paulo. The next city - New technologies and the future of the built environment. Campinas: Universidade Estadual de Campinas, 2015. v. 1. p. 434-446

22%; open Abbasabadi, N. and Ashayeri, M. (2019) Find in CUMINCAD Urban energy use modelling methods and tools: A review and an outlook , Building and Environment, 161, 106270. https://doi.org/10.1016/j.buildenv.2019.106270Alhamwi, A., Medjroubi, W., Vogt, T. and Agert, C. (2017). GIS-based urban energy systems models and tools: Introducing a model for the optimisation of flexibilisation technologies in urban areas. Applied Energy, 191, 1-9. https://doi.org/10.1016/j.apenergy.2017.01.048Chen, Y. and Hong, T. (2018). Impacts of building geometry modelling methods on the simulation results of urban building energy models. Applied Energy, 215, 717-735. https://doi.org/10.1016/j.apenergy.2018.02.073Chen, Y., Hong, T., Luo, X. and Hooper, B. (2019). Development of city buildings dataset for urban building energy modelling. Energy and Buildings, 183, 252-265. https://doi.org/10.1016/j.enbuild.2018.11.008Davila, C.C., Reinhart, C.F., and Bemis, J.L. (2016). Modelling Boston: A workflow for the efficient generation and maintenance of urban building energy models from existing geospatial datasets. Energy, 117, 237-250. https://doi.org/10.1016/j.energy.2016.10.057Dogan, T. and Reinhart, C. (2017). Shoeboxer: An algorithm for abstracted rapid multi-zone urban building energy model generation and simulation. Energy and Buildings, 140, 140-153. https://doi.org/10.1016/j.enbuild.2017.01.030EC. (2021). 2030 Climate Target Plan. European Commission. Retrieved June 1, 2021, from https://ec.europa.eu/clima/eu-action/european-green-deal/2030-climate-target-plan_en

22%; open Acuña, A. and Sosa, R. (2010) Find in CUMINCAD The complementary role of representations in design creativity: sketches and models , Design Creativity 2010, Springer, 265–270

22%; open Agarwal, SC and Waggenspack Jr, WN (1992) Find in CUMINCAD Decomposition method for extracting face topologies from wireframe models , Computer-Aided Design, 24(3), pp. 123-140

22%; open Altmyer, J., Schürmann, B. and Schütze, M. (1995) Find in CUMINCAD Generating ECAD Framework Code from Abstract Models , Proceedings of the Design Automation Conference 95, San Francisco, California

22%; open Anil EB, Tang P and Akinci B (2011) Find in CUMINCAD Assessment of quality of as-is building information models generated from point clouds using deviation analysis , Proceedings of the IS&T/SPIE – electronic imaging science and technology, SanJose, CA, 26-27 January 2011, SPIE

22%; open Anil, E, Tang, P, Akinci, B and Huber, D (2011) Find in CUMINCAD Assessment of Quality of As-is Building Information Models Generated from Point Clouds Using Deviation Analysis , Proceedings of the SPIE Vol. 7864A, Electronics Imaging Science and Technology Conference (IS&T), 3D Imaging Metrology

22%; open Arroyo Ohori, K., Diakité, A., Krijnen, T., Ledoux, H., & Stoter, J. (2018) Find in CUMINCAD Processing BIM and GIS Models in Practice: Experiences and Recommendations from a GeoBIM Project in The Netherlands , ISPRS International Journal of Geo-Information, 7(8), 311

22%; open Banfi, F., Brumana, R. & Stanga, C. (2019) Find in CUMINCAD Extended reality and informative models for the architectural heritage: from scan-to-BIM process to virtual and augmented reality , Virtual Archaeology Review, 10(21), p.14

22%; open Barba, S, Barbarella, M, Di Benedetto, A, Fiani, M, Gujski, L and Limongiello, M (2019) Find in CUMINCAD Accuracy Assessment of 3D Photogrammetric Models from an Unmanned Aerial Vehicle , Drones, 3, pp. 79-97

22%; open Barrios, Carlos (2005) Find in CUMINCAD Transformations on Parametric Design Models , Proceedings from CAAD FUTURES 2005, edited by Bob Martens and Andre Brown, Vienna

22%; open Bevilacqua, M.G., Caroti, G., Piemonte, A., & Ulivieri, D. (2019) Find in CUMINCAD Reconstruction of lost architectural volumes by integration of photogrammetry from archive imagery with 3-D models of the status quo , ISPRS Archives, XLII-2/W9, 119-125. https://doi.org/10.5194/isprs-archives-XLII-2-W9-119-2019

22%; open Blaise, J.Y., Drap, P. and Florenzano, M. (1998) Find in CUMINCAD From photogrammetrical survey to architectural models monitoring through a virtual reality interface.Complex Systems Intelligent Systems & Interfaces , 26-28 mai 1998 Nimes, France.,Publié dans La lettre de l’IA, nr 134-135-136 Mai-August 1998c, pp. 168, 175

22%; open Bonabeau, E (1997) Find in CUMINCAD From Classical Models of Morphogenesis to Agent-Based Models of Pattern Formation , Artificial Life, 3(3), pp. 191-211

22%; open Bonabeau, E. (1997) Find in CUMINCAD From classical models of morphogenesis to agent-based models of pattern formation , Artificial Life, 3 (3), 191-211

22%; open Bonabeau, E.W. (1997) Find in CUMINCAD From Classical Models of Morphogenesis to Agent-Based Models of Pattern Formation , Artificial Life, vol. 3, 199-211

22%; open Bonabeu, E (1997) Find in CUMINCAD From Classical Models for Morphogenesis to Agent-based Models of Pattern Formation , Artificial Life, 3(3), pp. 191-211

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