Three-dimensional system modeling and design of ecological garden landscape based on the interlaced spatial pattern of light and shadow

Cheng Chen
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Abstract

The layout and design of ecological landscaping is an important part of the construction and development of modern cities. In the 3D reconstruction of the spatial pattern of the light and shadow interlaced zone of the ecological landscape, the complexity and particularity of the ecological landscape structure make it difficult for the three-dimensional reconstruction stereo matching set to meet the accuracy requirements, and the quality 3D image construction cannot meet the requirements of landscape planning. Based on the principle of binocular stereo vision, a regional feature stereo matching algorithm (rsurf) is used to improve the accuracy of feature matching. Considering that the algorithm is easy to filter out the detailed features of the image, the improved RANSAC algorithm is used to filter the matching results. The experimental results show that in the matching cost test of the optimal matching window, the 15 × window neighborhood has the lowest matching cost, and the generated value in the 100 × 100 source window is 0.824. In the test after matching and fusion, the rsurf algorithm is superior to the surf algorithm in both RMS and PMS error performance, and can better meet the requirements of 3D reconstruction of the binocular vision system. The research content has an important reference for the application of landscape visualization 3D technology, and improves the overall layout effect of landscape landscape.
基于光影交错空间格局的生态园林景观三维系统建模与设计
生态景观的布局设计是现代城市建设与发展的重要组成部分。在生态景观光影交错带空间格局的三维重建中,生态景观结构的复杂性和特殊性使得三维重建立体匹配集难以满足精度要求,高质量的三维影像构建也无法满足景观规划的要求。基于双目立体视觉原理,采用区域特征立体匹配算法(rsurf)提高特征匹配精度。考虑到该算法容易滤除图像的细节特征,采用改进的RANSAC算法对匹配结果进行滤波。实验结果表明,在最优匹配窗口的匹配代价测试中,15 ×窗口邻域的匹配代价最低,在100 × 100源窗口的生成值为0.824。在匹配融合后的测试中,rsurf算法在RMS和PMS误差性能上都优于surf算法,能够更好地满足双目视觉系统三维重建的要求。研究内容对景观可视化三维技术的应用,提高景观景观整体布局效果具有重要参考意义。
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