Digital technology has facilitated substantial progress in the development and implementation of virtual museums. Despite these advancements, current virtual museums continue to face challenges in spatial layout and information presentation, including limited exhibit hierarchy, inefficient spatial organization, low information display efficiency, and sub-optimal visual experiences. To address these challenges, spatial intelligence algorithms are utilized to reconstruct three-dimensional models of selected cultural relics for scene creation and to optimize the spatial layout of virtual museum exhibits. The layout optimization approach considers both symmetrical and asymmetrical arrangements, as well as visual hierarchy and information density. This approach aims to establish a more complex exhibit hierarchy, rational spatial organization, and enhanced visual information display. Comparative experiments and analyses of the visual impact from symmetrical layout optimization, along with other spatial layout optimizations, are conducted. User evaluations and eye-tracking experiments indicate that spatial intelligence-optimized algorithms improve both spatial layout and information display in virtual museums, leading to a more positive user visual experience.
Zhu et al. (Fri,) studied this question.