Virtual Museum Scene Design Based on VRAR Realistic Interaction under PMC Artificial Intelligence Model
Author:
Zhang Wenyi1, Liu Xiaotong2
Affiliation:
1. 1 Sangmyung Univ , Dept Art & Culture , Cheonan , , South Korea 2. 2 Kookmin Univ , Dept Culture & arts , Seoul , , South Korea
Abstract
Abstract
At present, there are problems of insufficient conservation and heritage and single display channels in the field of museums. In the background of digital era, innovative new museum display mode and interaction mode can bring new exhibition experience for visitors. In this paper, we study the key technologies such as 3D scene visualization, facility and equipment simulation, and human-computer interaction simulation. Based on virtual reality and augmented reality, somatosensory interactive digital technologies, an interaction engine under multiple classifiers is proposed, an online virtual museum design strategy is built, and an all-round, multi-angle, three-dimensional interactive museum display platform is constructed. A quantitative analysis method based on the policy consistency index model is proposed to conduct user measurement and post-use evaluation of the conceived virtual museum. The application results show that the design platform can intuitively display the complex environment of an intelligent digital museum, support the development of immersive virtual roaming and virtual touch, and provide a new way to visit a new type of interactive museum.
Publisher
Walter de Gruyter GmbH
Subject
Applied Mathematics,Engineering (miscellaneous),Modeling and Simulation,General Computer Science
Reference30 articles.
1. 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. 2. 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. 3. 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. 4. 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. 5. 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.
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