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Zhou, Y., Feng, T., Shuai, S., Li, X., Sun, L., Duh, H. B. L. (2022). EDVAM: a 3D eye-tracking dataset for visual attention modeling in a virtual museum. Frontiers of Information Technology & Electronic Engineering, 23(1), 101-112.Search in Google Scholar
Jiang, X.. (2022). Research on the construction of the theoretical system of cultural creation in university museums from the perspective of non- heritage. Chemical Progress, 39(04), 1610.Search in Google Scholar
Han, S. C., Lou, H., Wang, J. L. (2022). Traffic evaluation and modeling of VR panoramic video spatio-temporal slicing transmission. Journal of Communication, 43(07), 102-112.Search in Google Scholar
Liu, L., Gong, Ch., Li, H., Wang, R. (2022). Reliability, testability, maintenance, safety, and security design based on virtual reality technology. Journal of Military Engineering, 43(S1), 208-213.Search in Google Scholar
Dang, S., Liu, Ch., Liu, X., Yan, S. (2022). Joint upstream and downstream resource allocation for low latency mobile virtual reality distribution in fog wireless access networks. Frontiers of Information Technology & Electronic Engineering, 23(01), 73-86.Search in Google Scholar
Zhang, Y. (2019). An analysis of the diversity of audience visits to the Palace Museum. Chinese heritage science research, 03, 23-29.Search in Google Scholar
Wei, B., Silva, C., Koutsofios, E., Krishnan, S., & North, S. (2000). Visualization research with large displays. IEEE Computer Graphics and Applications, 20(04), 50-54.Search in Google Scholar
Muraki, S., Ogata, M., Ma, K. L., Koshizuka, K., Kajihara, K., Liu, X., et al. (2001). Next-generation visual supercomputing using PC clusters with volume graphics hardware devices. In Proceedings of the 2001 ACM/IEEE conference on Supercomputing (pp. 51-51).Search in Google Scholar
Schikore, D. R., Fischer, R. A., Frank, R., Gaunt, R., Hobson, J., Whitlock, B. (2000). High-resolution multiprojector display walls. IEEE Computer Graphics and Applications, 20(4), 38-44.Search in Google Scholar
Xie,Y., Guo, D., Zhang, L. (2022). Design and application of deep-sea virtual museum based on 5G+OpenVR cross-platform experience technology. Science and Technology Communication, 14(11), 1-6. https://doi.org/10.16607/j.cnki.1674-6708.2022.11.043.Search in Google Scholar
Ren, Y.L., Li, X.Y., Yang, Q. (2019). Research on the design of VR virtual museum interaction experience. Popular literature and art, 05, 121.Search in Google Scholar
Yu, L., Dong, L. (2019). Introduction to the construction of virtual museums under the “Internet+” model. Real Estate, 20, 22.Search in Google Scholar
Song, Y. (2022). ARCore-based mobile augmented reality application system design. Computer Technology and Development, 32(07), 196-200.Search in Google Scholar
Zheng, Z.W., Yang, C., Han, Y.G., Yang, Y., Wu, Y.D., Wang, F., Zhang, X.. (2021). An immersive virtual reality collaborative framework for flow field visualization. Journal of Computer-Aided Design and Graphics, 33(12), 1811-1820.Search in Google Scholar
Wang, Z., Gai, M., Xu, H. (2022). Surface reconstruction algorithm of 3D scene images based on virtual reality technology. Journal of Jilin University (Engineering Edition), 52(07), 1620-1625. https://doi.org/10.13229/j.cnki.jdxbgxb20210581.Search in Google Scholar
Yuan, Q., Shu, W. R., Pan, Z. G., Xu, S., Gao, J. L., Luo, T. R.. (2021). A review of human- computer interaction techniques in spatial augmented reality. Journal of Computer-Aided Design and Graphics, 33(03), 321-332.Search in Google Scholar
Pan, Z.,G., Gao, J. L., Wang, R., Yuan, Q. S., Fan, R., She, L. (2021). Spatial augmented reality digital twin method alignment techniques for physical interaction. Journal of Computer-Aided Design and Graphics, 33(05), 655-661.Search in Google Scholar
Jin, X., Wu, C. H. (2019). Research on visual guide of Bada Shanren Memorial Hall based on VR/AR realistic interaction design. Packaging Engineering, 40(6), 7.Search in Google Scholar
Peng, Y.X., Zhang, Y. J., Li, S. Q. (2005). Spatial and temporal consistency of distributed virtual environments. Journal of Electronics, 02, 313-316.Search in Google Scholar
Sanna, A., Manuri, F. (2016). A survey on applications of augmented reality. Advances inComputer Science:An International Journal, 5(1), 18-27.Search in Google Scholar
Fan, L., Ma, J., Zhang, K., Miao, X., Li, J. (2019). Development and outlook of augmented reality hardware industry. Science and Technology Herald, 37(15),114-124.Search in Google Scholar
Jaimes, A., Sebe, N. (2007). Multimodal human-computer interaction: a survey. Computervision and image understanding, 108(1-2), 116-134.Search in Google Scholar
Hou, S., Han, J., Zhang, Y., Zhu, Z. (2019). A review of vision-based augmented reality 3D registration techniques. Journal of Systems Simulation, 31(11), 2206-2215. https://doi.org/10.16182/j.issn1004731x.joss.19-FZ0286.Search in Google Scholar
Lu, M., Yu, W. X., Bao, H. U. J., Kuang, Z. (2003). A three-dimensional virtual studio system based on electromechanical tracking. Journal of Electronics, S1, 2035-2039.Search in Google Scholar
Jiang, Z., Liu, H., Wang, J., Huang, J. (2009). Virtual reality teleoperation with robustness to model errors (in English). Chinese Journal of Aeronautics, 22(03), 325-333.Search in Google Scholar
Zhang, B. (2018). Advantages and applications of VR technology in the process of museum exhibition design. Enterprise Science and Technology and Development, 10, 141-142.Search in Google Scholar
Li, T.T., Wang, X. (2017). Research on the interactive application of museum exhibition based on ARVR hybrid technology. Computer Engineering and Applications, 53(22), 185-189,263.Search in Google Scholar
Zheng, Y.W., Qiao, L., Wang, X., Li, Y. (2019). Transformed strength criterion of damage mode based on PMC model. Journal of Coal, 44(05):1404-1410. https://doi.org/10.13225/j.cnki.jccs.2019.6029.Search in Google Scholar
Deyi, L., Kun, L., Yan, S., Mingchang, H. (2007). Emergent computing:from unordered applause to ordered applause for virtual reality. Chinese Science(E Series:Information Science), 10, 1248-1257.Search in Google Scholar
Xu, S., Zheng, X., Xie, X., Xiong, H. (2022). Real-time identification and localization of single building for virtual-real fusion. Journal of Wuhan University (Information Science Edition), 1-10.Search in Google Scholar