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Aristov, M. M., Geng, H., Pavelic, A., & Berry, J. F. (2022). A new library of 3d models and problems for teaching crystallographic symmetry generated through blender for use with 3d printers or sketchfab. Journal of Applied Crystallography(1), 55.Search in Google Scholar
Verónica Paola Rossado Espinoza, Cardenas-Salas, D., Cabrera, A., & Lucía Coronel. (2021). Virtual reality and bim methodology as teaching- learning improvement tools for sanitary engineering courses. International Journal of Emerging Technologies in Learning (iJET)(06).Search in Google Scholar
Wang, Y. (2021). Physical education teaching in colleges and universities assisted by virtual reality technology based on artificial intelligence. Mathematical Problems in Engineering, 2021.Search in Google Scholar
Kumar, A., Dey, R., Rao, G. M., & Ambeth, K. V. D. (2021). 3d animation and virtual reality integrated cognitive computing for teaching and learning in higher education.Search in Google Scholar
Yigitbas, E. (2022). Virtual reality in university teaching: experiences from a computer science seminar. arXiv e-prints.Search in Google Scholar
Jakob, S., Flint, B. M., Moore, J. N., & White, S. L. (2010). Teaching veterinary obstetrics using three-dimensional animation technology. Journal of Veterinary Medical Education, 37(3), 299-303.Search in Google Scholar
Jiang, L. (2021). Virtual reality action interactive teaching artificial intelligence education system. Complexity, 2021.Search in Google Scholar
Chih‐Hung Chung, & Lin, Y. Y. (2022). Online 3d gamification for teaching a human resource development course. Journal of Computer Assisted Learning, 38(3), 692-706.Search in Google Scholar
Hui-Xia, T. (2022). The development technology of mooc teaching resources based on web crawler. International journal of continuing engineering education and life-long learning.Search in Google Scholar
Griswold, D., Tabani, H., Meybodi, A. T., & Benet, A. (2016). Using 3d neuroanatomy educational resources as a neurosurgical teaching tool in lmics. American Society of Clinical OncologyAlexandria, VA.Search in Google Scholar
Arrondo, G., Bernacer, J., & Luis Díaz Robredo. (2016). Visualization of digital 3d models in anatomical teaching: main resources and a teaching experience of the nervous system. Educacion Medica.Search in Google Scholar
Carbonell-Carrera, C., Saorin, J. L., Dámari Melian, & Cantero, J. D. L. T. (2017). 3d creative teaching-learning strategy in surveying engineering education. Eurasia Journal of Mathematics Science & Technology Education, 13(11), 1-14.Search in Google Scholar
Aristov, M. M., Moore, J. W., & Berry, J. F. (2021). Library of 3d visual teaching tools for the chemistry classroom accessible via sketchfab and viewable in augmented reality. Journal of Chemical Education(9), 98.Search in Google Scholar
Guler, O., & Savas, S. (2022). Stereoscopic 3d teaching material usability analysis for interactive boards. Computer animation and virtual worlds(2), 33.Search in Google Scholar
Balzli, D., Rehberg, D., Ebert, L. C., Enders, M., & Sieberth, T. (2022). 3d multimodal teaching of human anatomy and autopsy with real human data. Forensic imaging.(28-), 28.Search in Google Scholar
Pajaziti, E., Milano, E. G., Schievano, S., Cook, A., & Capelli, C. (2022). Investigating the feasibility of virtual reality for teaching on congenital heart disease. European Journal of Vascular and Endovascular Surgery, 63(2), e42-.Search in Google Scholar
Qian, J. (2022). Research on artificial intelligence technology of virtual reality teaching method in digital media art creation. Journal of Internet Technology(1), 23.Search in Google Scholar
Wang, H., Wang, Y., Wang, L., Qiao, Y., Shi, Y., & Dong, L. I. (2022). Design and teaching of virtual simulation experiment for biochemical laboratory tests of liver functions. Chemistry of Life, 42(5), 1035-1040.Search in Google Scholar
Hou, Y., Wang, M., He, W., Ling, Y., Zheng, J., & Hou, X. (2023). Virtual simulation experiments: a teaching option for complex and hazardous chemistry experiments. Journal of Chemical Education, 100(4), 1437-1445.Search in Google Scholar
Wei, L. S., & Wang, Y. (2013). Engineering three-dimensional digital modeling technology based on the ogre graphics engine. Applied Mechanics & Materials, 263-266, 1407-1413.Search in Google Scholar
David Michalík, Jirgl, M., Arm, J., & Fiedler, P. (2021). Developing an unreal engine 4-based vehicle driving simulator applicable in driver behavior analysis—a technical perspective. Safety(2).Search in Google Scholar
Envelope, Y. L. A., & A, Y. Z. (2022). Research on key technologies of garbage classification virtual simulation game development based on unity3d technology. Procedia Computer Science, 208, 546-552.Search in Google Scholar
Weigang, A., & Jinxiao, P. (2021). Fast 3d image reconstruction algorithm based on artificial intelligence technology. International Journal of Electrical Engineering Education, 002072092098504.Search in Google Scholar
Isachsen, U. J., Theoharis, T., & Misimi, E. (2021). Fast and accurate gpu-accelerated, high-resolution 3d registration for the robotic 3d reconstruction of compliant food objects. Computers and Electronics in Agriculture, 180(2), 105929.Search in Google Scholar
Huo, J., & Yue, X. (2021). Research and implementation of mechanical virtual experiment teaching platform. International Journal of Electrical Engineering Education, 002072092110020.Search in Google Scholar
Jarmon, L., Traphagan, T., Mayrath, M., & Trivedi, A. (2009). Virtual world teaching, experiential learning, and assessment: an interdisciplinary communication course in second life. Computers & Education, 53(1), 169-182.Search in Google Scholar
Maged, M., Dessouky, Diane, E., & Bailey, et al. (2013). A virtual factory teaching system in support of manufacturing education. Journal of Engineering Education, 87(4).Search in Google Scholar
Hui, J., Zhou, Y., Oubibi, M., Di, W., Zhang, L., & Zhang, S. (2022). Research on art teaching practice supported by virtual reality (vr) technology in the primary schools. Sustainability, 14.Search in Google Scholar
Farcas, MonicaReynolds, Luke F.Lee, Jason Y. (2021). Simulation-based percutaneous renal access training: evaluating a novel 3d immersive virtual reality platform. Journal of endourology, 35(5).Search in Google Scholar
Guan, S., Hu, W., Zhou, H., Lei, Z., & Guo‐Ping Liu. (2021). Design and implementation of virtual experiment for complex control system: a case study of thermal control process. IET Generation Transmission & Distribution(3).Search in Google Scholar
Elcock, K., Gibson-Watt, T., Boyd, M., & Paxton, J. Z. (2021). Can 3d scanning be used to produce a virtual skeleton for teaching online?. Journal of Anatomy(4), 239.Search in Google Scholar
Ma, J., Jaradat, R., Ashour, O., Hamilton, M., & Dayarathna, V. L. (2018). Efficacy investigation of virtual reality teaching module in manufacturing system design course. Journal of Mechanical Design, 141(1).Search in Google Scholar
Feng, J., Wang, H., Zhang, W., Wang, Z., & Jiang, Z. (2019). Construction technology of 3d virtual chemistry experiment teaching based on simulation modeling. Basic & clinical pharmacology & toxicology.(S1), 124.Search in Google Scholar