Journal of Construction Automation and Robotics ISSN:2800-0552(Print) 2951-116X(Online) 건설자동화·로보틱스 논문집

Afzal, M., and Shafiq, M. (2021). Evaluating 4D-BIM and VR for effective safety communication and training: a case study of multilingual construction job-site crew. Buildings, 11(8), pp. 1-24.

Aung, P., Choi, W., Kulinan, A., Cha, G., and Park, S. (2022). Three-dimensional engine-based geometric model optimization algorithm for BIM visualization with augmented reality. Sensors, 22(19), pp. 1-13.

Baek, J. (2018). A study on the marker tracking for virtual construction simulation based mixed-reality. Journal of the Korea Academia-Industrial Cooperation Society, 19(12), pp. 660-668. (In Korean)

Bogen, A., and East, E. (2011). Using IFC Models for User-Directed Visualization. Proc. of Congress on Computing in Civil Engineering, Miami, Florida, pp. 470-477.

Boton, C. (2018). Supporting constructability analysis meetings with Immersive Virtual Reality-based collaborative BIM 4D simulation. Automation in Construction, 96, pp. 1-15.

Bourlon, S., and Boton, C. (2019). Automating the Integration of 4D Models in Game Engines for a Virtual Reality-Based Construction Simulation. Cooperative Design, Visualization, and Engineering, pp. 123-132.

Carrasco, M., and Chen, P. (2021). Application of mixed Reality for improving architectural design comprehension effectiveness. Automation in Construction, 126, pp. 1-16.

Cho, J., Kim, S., and Kang, S. (2023). Development of Building Information Modeling Object Selection and Compression System for 4D-Simulation in Mixed Reality. Proc. of Korean Society of Civil Engineers, Yeosu, Korea, pp. 648-649.

Cho, J., Kim, S., Lee, K., Choi, S., and Kang, S. (2024). Development of a BIM Object Partitioning System for 4D Simulation in Mixed Reality. Proc. of 10th International Conference on Construction Engineering and Project Management, Sapporo, Japan, pp. 672-679.

Chu, S. (2012). From CAD to BIM in architecture. Society for Computational Design and Engineering, 18(2), pp. 6-13.

Corneli, A., Naticchia, B., Carbonari, A., and Bosché, F. (2019). Augmented reality and deep learning towards the management of secondary building assets. Proc. of 36th International Symposium on Automation and Robotics in Construction (ISARC), Banff, Canada, pp. 332-339.

Eastman, C. (2011). BIM handbook: A guide to building information modeling for owners, managers, designers, engineers and contractors. John Wiley & Sons, pp. 1-688.

Fu, C., Aouad, G., Lee, A., Marshall-Ponting, A., and Wu, S. (2006). IFC model viewer to support nD model application. Automation in Construction, 15(2), pp. 178-185.

Handel, O., Gümüs, E., Papoutsis, E., and Amann, J. (2015). Dynamic visualization of pedestrian simulation data. Proc. of Forum Bauinf, Aachen, Germany, pp. 1-9.

Hilfert, T., and König, M. (2015). Low-cost virtual reality environment for engineering and construction. Visualization in Engineering, 4(1), pp. 1-18.

Honnappa, D., and Padala, S. (2022). BIM-based framework to quantify delays and cost overruns due to changes in construction projects. Asian Journal of Civil Engineering, 23(5), pp. 707-725.

Huang, X. (2022). BIM-Based Virtual Environment ofr Reverberation Time Analysis, 情報処理学会第 84回全国大会, 7(2), pp. 1-2.

Jafari, G. K., Sharyatpanahi, G. N., and Noorzai, E. (2021). BIM-based integrated solution for analysis and management of mismatches during construction. Journal of Engineering, Design and Technology, 19(1), pp. 81-102.

Kim, M., Kim, Y., Lee, S., Kim, S., and Kim, J. (2019). Relay Server System Construction for 3D Holoportation Service. Proc. of the Korea Society for Industrial Systems Conference, Jeju, Korea, 26(2), pp. 28-30. (In Korean)

Lee, E., Kim, G., and Jang, H. (2022). A study of an architecture of digital twin ship with mixed reality. Journal of Navigation and Port Research, 46(5), pp. 458-470.

McHenry, K., and Bajcsy, P. (2008). An overview of 3D data content, file formats and viewers. National Center for Supercomputing Applications, 1205(22), pp. 1-21.

Mutis, I., and Desai, R. (2019). Immersion into Holographic Spaces to Enhance Engineering and Architecture Design Interpretations. Proc. of ASCE International Conference on Computing in Civil Engineering, Atlanta, Georgia, pp. 63-70.

Na, J., and Hong, C. (2013). A study on the weight lightening algorithm of 3-Dimensional large object based on spatial data LOD. Spatial Information Research, 21(6), pp. 1-9. (In Korean)

Riexinger, G., Kluth, A., Olbrich, M., Braun, J. D., and Bauernhansl, T. (2018). Mixed reality for on-site self-instruction and self-inspection with building information models. Procedia CIRP, 72(12), pp. 1124-1129.

Sampaio, A., and Martins, O. (2017). VR model of bridge construction: a didactic application. Proc. of the Virtual Reality International Conference - Laval Virtual 2017, 21, pp. 1-3.

Sørensen, S., and Jensen, T. (2019). Development of e-learning applications using hololens and mixed reality. Proc. of the 13th International Conference on Game Based Learning, Odense, Denmark, pp. 649-656.

Wang, K., Chao, T., and Yu, P. (2022). A BIM-based Augmented Reality System for Four-Dimensional Simulation. Proc. of The International Symposium on Nondestructive Testing in Civil Engineering, Zurich, Switzerland, pp. 1-6.

Wang, X., Truijens, M., Hou, L., Wang, Y., and Zhou, Y. (2014). Integrating augmented reality with building information modeling: Onsite construction process controlling for liquefied natural gas industry. Automation in Construction, 40, pp. 96-105.

Wu, Z., and Wu, I. (2016). Design and Implementation of an IFC Data Model to Unity Data Model Transformation Mechanism. Proc. of International Conference on Computing in Civil and Building Engineering, Osaka, Japan, pp. 1609-1614.

Zhao, S., Zhang, L., and DeAngelis, E. (2019). Using augmented reality and mixed reality to interpret design choices of high performance buildings. Proc. of European Council on Computing in Construction, Crete, Greece, pp. 435-441.