Construction of medical aromatherapy experimental teaching resources based on digital three-dimensional technology

[1] 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

[2] 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

[3] 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

[4] 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

[5] Yigitbas, E. (2022). Virtual reality in university teaching: experiences from a computer science seminar. arXiv e-prints. Search in Google Scholar

[6] 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

[7] Jiang, L. (2021). Virtual reality action interactive teaching artificial intelligence education system. Complexity, 2021. Search in Google Scholar

[8] 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

[9] 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

[10] 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

[11] 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

[12] 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

[13] 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

[14] 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

[15] 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

[16] 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

[17] 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

[18] 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

[19] 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

[20] 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

[21] 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

[22] 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

[23] 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

[24] 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

[25] 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

[26] 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

[27] 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

[28] 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

[29] 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

[30] 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

[31] 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

[32] 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

[33] 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