https://orcid.org/0000-0001-7892-3575
References
- Abbas, M. A., Zainuddin, K., Darwin, N., Azmi, M. A. A. M., Opaluwa, Y. D., Sulaiman, S. A., & Hashim, N. M. (2021). Three-dimensional data quality assessment: Unmanned aerial vehicle photogrammetry and mobile laser scanner. Engineering Journal-Thailand, 25(1), 143–154.
- Aryan, A., Bosche, F., & Tang, P. (2021). Planning for terrestrial laser scanning in construction: A review. Automation in Construction, 125, 103551. doi:10.1016/j.autcon.2021.103551
- Chen, X., Liu, G., Chen, Z., Li, Y., Luo, C., Luo, B., & Zhang, X. (2022). Automatic detection system with 3D scanning and robot technology for detecting surface dimension of the track slabs. Automation in Construction, 142, 104525. doi:10.1016/j.autcon.2022.104525
- Cui, B., Tao, W., & Zhao, H. (2021). High-precision 3D reconstruction for small-to-medium-sized objects utilizing line-structured light scanning: A review. Remote Sensing, 13(21), 4457. doi:10.3390/rs13214457
- Geiger, S., Hank, P., & Kienle, A. (2022). Improved topography reconstruction of volume scattering objects using structured light. Journal of the Optical Society of America A-Optics Image Science and Vision, 39(10), 1823–1830. doi:10.1364/JOSAA.464007
- Guo, J., Wang, Q., & Park, J.-H. (2020). Geometric quality inspection of prefabricated MEP modules with 3D laser scanning. Automation in Construction, 111, 103053. doi:10.1016/j.autcon.2019.103053
- Hua, L., Lu, Y., Deng, J., Shi, Z., & Shen, D. (2022). 3D reconstruction of concrete defects using optical laser triangulation and modified spacetime analysis. Automation in Construction, 142, 104469. doi:10.1016/j.autcon.2022.104469
- Kim, M.-K., Cheng, J. C. P., Sohn, H., & Chang, C.-C. (2015). A framework for dimensional and surface quality assessment of precast concrete elements using BIM and 3D laser scanning. Automation in Construction, 49, 225–238. doi:10.1016/j.autcon.2014.07.010
- Kim, M.-K., Wang, Q., & Li, H. (2019). Non-contact sensing based geometric quality assessment of buildings and civil structures: A review. Automation in Construction, 100, 163–179. doi:10.1016/j.autcon.2019.01.002
- Kim, M.-K., Wang, Q., Park, J.-W., Cheng, J. C. P., Sohn, H., & Chang, C.-C. (2016). Automated dimensional quality assurance of full-scale precast concrete elements using laser scanning and BIM. Automation in Construction, 72, 102–114. doi:10.1016/j.autcon.2016.08.035
- Kim, M.-K., Wang, Q., Yoon, S., & Sohn, H. (2019). A mirror-aided laser scanning system for geometric quality inspection of side surfaces of precast concrete elements. Measurement, 141, 420–428. doi:10.1016/j.measurement.2019.04.060
- Kong, L., Peng, X., Chen, Y., Wang, P., & Xu, M. (2020). Multi-sensor measurement and data fusion technology for manufacturing process monitoring: A literature review. International Journal of Extreme Manufacturing, 2(2), 022001. doi:10.1088/2631-7990/ab7ae6
- Kurkela, M., Maksimainen, M., Julin, A., Virtanen, J.-P., Männistö, I., Vaaja, M. T., & Hyyppä, H. (2022). Applying photogrammetry to reconstruct 3D luminance point clouds of indoor environments. Architectural Engineering and Design Management, 18(1), 56–72. doi:10.1080/17452007.2020.1862041
- Li, H., Zhang, C., Song, S., Demirkesen, S., & Chang, R. (2020). Improving tolerance control on modular construction project with 3D laser scanning and BIM: A case study of removable floodwall project. Applied Sciences-Basel, 10(23), 8680. doi:10.3390/app10238680
- Liu, B., Yang, F., Huang, Y., Zhang, Y., & Wu, G. (2022). Single-shot three-dimensional reconstruction using grid pattern-based structured-light vision method. Applied Sciences-Basel, 12(20), 10602. doi:10.3390/app122010602
- Liu, J., & Wang, Y. (2021). 3D surface reconstruction of small height object based on thin structured light scanning. Micron, 143, 103022. doi:10.1016/j.micron.2021.103022
- Loz, P. H. F., Angulo, S. C., Rebmann, M. S., & Tutumluer, E. (2021). Use of a 3D structured-light scanner to determine volume, surface area, and shape of aggregates. Journal of Materials in Civil Engineering, 33(9), 04021240. doi:10.1061/(ASCE)MT.1943-5533.0003824
- Luo, H., Zhang, K., Li, R., Xia, Y., & Liang, P. (2022). A structured-light 3D sensor-based shape measurement method for casting allowance evaluation. Frontiers in Physics, 10, 979450. doi:10.3389/fphy.2022.979450
- Mohammadi, M., Rashidi, M., Mousavi, V., Karami, A., Yu, Y., & Samali, B. (2021). Quality evaluation of digital twins generated based on UAV photogrammetry and TLS: Bridge case study. Remote Sensing, 13(17), 3499. doi:10.3390/rs13173499
- Nawab, R., & Allen, A. D. (2022). Low-cost AR-based dimensional metrology for assembly. Machines, 10(4), 243. doi:10.3390/machines10040243
- Nguyen, C. H. P., & Choi, Y. (2018). Comparison of point cloud data and 3D CAD data for on-site dimensional inspection of industrial plant piping systems. Automation in Construction, 91, 44–52. doi:10.1016/j.autcon.2018.03.008
- Skrzypczak, I., Oleniacz, G., Lesniak, A., Zima, K., Mrowczynska, M., & Kazak, J. K. (2022). Scan-to-BIM method in construction: Assessment of the 3D buildings model accuracy in terms inventory measurements. Building Research and Information, 50(8), 859–880. doi:10.1080/09613218.2021.2011703
- Son, R. H., & Han, K. (2022). Automated visual inspection planning for prefabricated modules with 3D laser scanning [Proceedings Paper]. In Construction Research Congress 2022: Computer Applications. Automation: And Data Analytics.
- Song, L., Li, X., Yang, Y.-g., Zhu, X., Guo, Q., & Liu, H. (2018). Structured-light based 3D reconstruction system for cultural relic packaging. Sensors, 18(9), 2981. doi:10.3390/s18092981
- Tan, Y., Li, S., & Wang, Q. (2020). Automated geometric quality inspection of prefabricated housing units using BIM and LiDAR. Remote Sensing, 12(15), 2492. doi:10.3390/rs12152492
- Valenca, J., Julio, E. N. B. S., & Araujo, H. J. (2012). Applications of photogrammetry to structural assessment. Experimental Techniques, 36(5), 71–81. doi:10.1111/j.1747-1567.2011.00731.x
- Wang, M., Wang, C. C., Sepasgozar, S., & Zlatanova, S. (2020). A systematic review of digital technology adoption in off-site construction: Current status and future direction towards industry 4.0. Buildings, 10(11), 204. doi:10.3390/buildings10110204
- Wang, R., Wang, Y., Devadiga, S., Perkins, I., Kong, Z., & Yue, X. (2021). Structured-light three-dimensional scanning for process monitoring and quality control in precast concrete production. PCI Journal, 66(6), 17–32. doi:10.15554/pcij66.6-01
- Wang, Z., Zhou, Q., & Shuang, Y. (2020). Three-dimensional reconstruction with single-shot structured light dot pattern and analytic solutions. Measurement, 151, 107114. doi:10.1016/j.measurement.2019.107114
- Wu, C., Yuan, Y., Tang, Y., & Tian, B. (2022). Application of terrestrial laser scanning (TLS) in the architecture, engineering and construction (AEC) industry. Sensors, 22(1), 265. doi:10.3390/s22010265
- Xu, Z., Kang, R., & Lu, R. (2020). 3D reconstruction and measurement of surface defects in prefabricated elements using point clouds. Journal of Computing in Civil Engineering, 34(5), 04020033. doi:10.1061/(ASCE)CP.1943-5487.0000920
- Xu, Z., Liang, Y., Xu, Y., Fang, Z., & Stilla, U. (2022). Geometric modeling and surface-quality inspection of prefabricated concrete components using sliced point clouds. Journal of Construction Engineering and Management, 148(9), 04022087. doi:10.1061/(ASCE)CO.1943-7862.0002345
- Yang, Y., Balange, L., Gericke, O., Schmeer, D., Zhang, L., Sobek, W., & Schwieger, V. (2021). Monitoring of the production process of graded concrete component using terrestrial laser scanning. Remote Sensing, 13(9), 1622. doi:10.3390/rs13091622
- Zhang, G., Yang, S., Hu, P., & Deng, H. (2022). Advances and prospects of vision-based 3D shape measurement methods. Machines, 10(2), 124. doi:10.3390/machines10020124
- Zhang, T., Niu, J., Liu, S., Pan, T., & Gupta, B. B. (2021). Three-dimensional measurement using structured light based on deep learning. Computer Systems Science and Engineering, 36(1), 271–280. doi:10.32604/csse.2021.014181