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C
Caron, F. , Razavi, S. , Song, J. , Vanheeghe, P. , Duflos, E. , Caldas, C. , & Haas, C. . (2006). Locating Sensor Nodes on Construction Projects. Autonomous Robots, 10.1007/s10514-006-9720-1.
Caldas, C. H. , Kim, J. - Y. , Haas, C. T. , Goodrum, P. M. , & Zhang, D. . (2015). Method to assess the level of implementation of productivity practices on industrial projects, 141(1). Retrieved from https://doi.org/10.1061/(ASCE)CO.1943-7862.0000919
C., H. , & C., H. . (1991). Integration of Diverse Technologies for Pavement Sensing. The National Research Council's Transportation Research Record, No. 1311, pp. 92-102.
B
Burleson, R. , Haas, C. , & Tucker, R. . (1998). Multiskilled Labor Utilization Strategies in Construction. ASCE Journal of Construction Engineering and Management, Vol. 124, No. 6, pp. 480-489.
Brilakis, I. , & Haas, C. Thomas Mic. (2019). Infrastructure computer vision (p. 408). Butterworth-Heinemann. Retrieved from https://scholar.google.ca/scholar?oi=bibs&cluster=7047206967977233061&btnI=1&hl=en
Brilakis, I. , & Haas, C. . (2015). Infrastructure computer vision. Advanced Engineering Informatics, 2(29), 147-148. Retrieved from https://www.infona.pl/resource/bwmeta1.element.elsevier-103f8c69-a679-3482-9824-180c83b55b8c
Bosche, F. , Ahmed, M. , Turkan, Y. , Haas, C. T. , & Haas, R. . (2015). The value of integrating Scan-to-BIM and Scan-vs-BIM techniques for construction monitoring using laser scanning and BIM: The case of cylindrical MEP components. Automation in Construction, 49, 201-213. Retrieved from https://doi.org/10.1016/j.autcon.2014.05.014
Bosche, F. , Ahmed, M. , Turkan, Y. , Haas, C. T. , & Haas, R. . (2015). The value of integrating Scan-to-BIM and Scan-vs-BIM techniques for construction monitoring using laser scanning and BIM: The case of cylindrical MEP components. Automation in Construction, 49, pp. 201-213. Retrieved from https://www.sciencedirect.com/science/article/pii/S0926580514001319
Bosche, F. , Guillemet, A. , Turkan, Y. , Haas, C. T. , & Haas, R. . (2014). Tracking the built status of MEP works: Assessing the value of a Scan-vs-BIM system. Journal of computing in civil engineering, 28(4). Retrieved from https://doi.org/10.1061/(ASCE)CP.1943-5487.0000343
Bosche, F. , Guillemet, A. , Turkan, Y. , Haas, C. T. , & Haas, R. . (2014). Tracking the built status of MEP works: Assessing the value of a Scan-vs-BIM system. Journal of Computing in Civil Engineering, 28 (4). Retrieved from https://ascelibrary.org/doi/abs/10.1061/%28ASCE%29CP.1943-5487.0000343
Bosche, F. , Turkan, Y. , Haas, C. T. , Chiamone, T. , Vassena, G. , & Ciribini, A. . (2013). Tracking MEP installation works. ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction, 30, 1. Retrieved from https://core.ac.uk/reader/29177540
Bosche, F. Nicolas, Turkan, Y. , Haas, C. T. , & Haas, R. . (2010). Fusing 4D modeling and laser scanning for automated construction progress control. 26th ARCOM Annual Conference and Annual General Meeting, 1229-1238. Retrieved from https://researchportal.hw.ac.uk/en/publications/fusing-4d-modeling-and-laser-scanning-for-automated-construction-
Bosche, F. , Turkan, Y. , Haas, C. T. , & Haas, R. . (2010). Fusing 4D modelling and laser scanning for construction schedule control. Proc. of the 26th Annual Conf. Association of Researchers in Construction Management. Retrieved from https://d1wqtxts1xzle7.cloudfront.net/48932495/Bosche-2010-ARCOM.pdf?1474207991=&response-content-disposition=inline%3B+filename%3DFusing_4D_Modelling_and_Laser_Scanning_f.pdf&Expires=1618850114&Signature=P6aNtcESBsOqZHphnga9nhE6QDACMh2Tjq2kcLG7iTNIUKxIk3
Bosche, F. , Haas, C. T. , & Akinci, B. . (2009). Automated recognition of 3D CAD objects in site laser scans for project 3D status visualization and performance control. Journal of Computing in Civil Engineering, 23(6), 311-318. Retrieved from https://doi.org/10.1061/(ASCE)0887-3801(2009)23:6(311)
Bosche, F. N. , & Haas, C. T. . (2008). Automated retrieval of project three-dimensional CAD objects in range point clouds to support automated dimensional QA/QC. Journal of Information Technology in Construction, 13(6), 71-85. Retrieved from https://www.researchgate.net/profile/Frederic-Bosche/publication/238623222_Automated_retrieval_of_project_three-dimensional_CAD_objects_in_range_point_clouds_to_support_automated_dimensional_QAQC/links/0deec528201db223e9000000/Automated-retrieval-of-proje
Bosché, F. , & Haas, C. T. . (2008). Automated retrieval of 3D CAD model objects in construction range images. Automation in Construction, 17(4), 499-512. Retrieved from https://doi.org/10.1016/j.autcon.2007.09.001
Bosché, F. , Haas, C. T. , & Murray, P. . (2008). Performance of automated project progress tracking with 3D data fusion. CSCE 2008 Annual Conference. Retrieved from https://pure.hw.ac.uk/ws/files/785787/CSCE_2008_CO_449_Final.pdf
Bosche, F. , & Haas, C. T. . (2008). Automated 3D data collection (A3DDC) for 3D building information modeling. The 25th International Symposium on Automation and Robotics in Construction Vilnius. Retrieved from https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.716.4829&rep=rep1&type=pdf
Bosche, F. , & Haas, C. T. . (2008). Automated Retrieval of 3D CAD Model Objects in Construction 3D Images. Journal of Automation in Construction, Elsevier, New-York, USA, Volume 17, Issue 4, pp 499-512.
Bosché, F. , & Haas, C. T. . (2007). Towards automated retrieval of 3D designed data in 3D sensed data. In Computing in Civil Engineering (pp. 648-656). Retrieved from https://doi.org/10.1061/40937(261)77

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