Visualization analysis of architectural interior design combined with virtual reality technology under new process conditions

Xiang Li
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Abstract

Abstract In this paper, a 3D model based on semantic annotation is constructed with the goal of improving the efficiency of building interior design. By analyzing the basic methods of semantic annotation for building interiors, the method of positioning and map construction is selected to obtain the indoor point cloud data. The distance between 3D spatial lines is calculated using the frame line extraction algorithm, and the target area of the frame line candidate is divided according to the distance. According to the principle of detecting raster circles using the Hough transform, an interior design structure recognition method is proposed for recognizing windows, doors, and walls in building interiors. The results show that the modeling time of the semantically annotated 3D model is 10 seconds faster than the other models on the wall; 9 seconds are saved on the door modeling, and 7 seconds are saved on the window modeling. The visualization effect of semantically annotated 3D models is mostly concentrated in (0.5-1), and a large number of data points are distributed in (0.6-0.9), which indicates that the visualization effect of semantically annotated 3D models is better. The semantically annotated 3D model proposed in this paper can improve the visualization of architectural interior design, which can improve the efficiency of designers to a certain extent.
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新工艺条件下结合虚拟现实技术的建筑室内设计可视化分析
摘要本文以提高建筑室内设计效率为目标,构建了基于语义标注的三维模型。通过分析建筑室内语义标注的基本方法,选择定位和地图构建的方法获取室内点云数据。利用帧线提取算法计算三维空间线之间的距离,并根据距离划分候选帧线的目标区域。根据Hough变换检测栅格圆的原理,提出了一种室内设计结构识别方法,用于建筑室内门窗和墙体的识别。结果表明:语义标注的三维模型建模时间比其他模型建模时间快10秒;门造型节省9秒,窗造型节省7秒。语义标注的3D模型可视化效果多集中在(0.5-1),大量数据点分布在(0.6-0.9),说明语义标注的3D模型可视化效果更好。本文提出的带有语义标注的三维模型可以提高建筑室内设计的可视化程度,在一定程度上可以提高设计师的工作效率。
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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