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Simple Reconstruction of Tree Branches from a Single Range Image 被引量:14

Simple Reconstruction of Tree Branches from a Single Range Image
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摘要 3D modeling of trees in real environments is a challenge in computer graphics and computer vision, since the geometric shape and topological structure of trees are more complex than conventional artificial objects. In this paper, we present a multi-process approach that is mainly performed in 2D space to faithfully construct a 3D model of the trunk and main branches of a real tree from a single range image. The range image is first segmented into patches by jump edge detection based on depth discontinuity. Coarse skeleton points and initial radii are then computed from the contour of each patch. Axis directions are estimated using cylinder fitting in the neighborhood of each coarse skeleton point. With the help of axis directions, skeleton nodes and corresponding radii are computed. Finally, these skeleton nodes are hierarchically connected, and improper radii are modified based on plant knowledge. 3D models generated from single range images of real trees demonstrate the effectiveness of our method. The main contributions of this paper are simple reconstruction by virtue of image storage order of single scan and skeleton computation based on axis directions. 3D modeling of trees in real environments is a challenge in computer graphics and computer vision, since the geometric shape and topological structure of trees are more complex than conventional artificial objects. In this paper, we present a multi-process approach that is mainly performed in 2D space to faithfully construct a 3D model of the trunk and main branches of a real tree from a single range image. The range image is first segmented into patches by jump edge detection based on depth discontinuity. Coarse skeleton points and initial radii are then computed from the contour of each patch. Axis directions are estimated using cylinder fitting in the neighborhood of each coarse skeleton point. With the help of axis directions, skeleton nodes and corresponding radii are computed. Finally, these skeleton nodes are hierarchically connected, and improper radii are modified based on plant knowledge. 3D models generated from single range images of real trees demonstrate the effectiveness of our method. The main contributions of this paper are simple reconstruction by virtue of image storage order of single scan and skeleton computation based on axis directions.
出处 《Journal of Computer Science & Technology》 SCIE EI CSCD 2007年第6期846-858,共13页 计算机科学技术学报(英文版)
基金 This work is supported by the National High Technology Development 863 Program of China under Grant Nos.2006AA01Z301 and 2006AA10Z229 the National Natural Science Foundation of China under Grant Nos.60674128,60073007,and 60473110 Beijing Municipal Natural Science Foundation under Grant No.4062033.
关键词 cylinder fitting generalized circular cylinder SKELETON tree branch modeling cylinder fitting, generalized circular cylinder, skeleton, tree branch modeling
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  • 1Phillippe de Reffye, Claude Edelin, Jean Francon et al. Plant models faithful to botanical structure and development. In Proc. 15th Annual Conf. Computer Graphics and Interactive Techniques, SIGGRAPH '88, New York, USA,1988, ACM Press, pp.151-158.
  • 2Prusinkiewicz P, Aristid Lindenmayer. The Algorithmic Beauty of Plants. New York: Springer-Verlag New York, Inc., USA, 1990.
  • 3Oliver Deussen, Bernd Lintermann. A modelling method and user interface for creating plants. In Proc. Conference on Graphics Interface'97, Toronto, Ont., Canada, 1997, Canadian Information Processing Society, pp.189-197.
  • 4Hui Xu, Nathan Gossett, Baoquan Chen. Knowledge-based modeling of laser-scanned trees. In Proc. SIGGRAPH'05: ACM SIGGRAPH 2005 Sketches, Los Angeles, California, USA, 2005, ACM Press, p.124.
  • 5Long Quan, Ping Tan, Gang Zeng, Lu Yuan, Jingdong Wang, Sing Bing Kang. Image-based plant modeling. ACM Trans. Graph., 2006, 25(3): 599-604.
  • 6Aschoff T, Thies M, Spiecker H. Describing forest stands using terrestrial laser-scanning. International Archives of Photogrammetry, Remote Sensing and Spatial Information Sciences, XXXV(Part B5), ISPRS, 2004, pp.237-241.
  • 7Bienert A, Maas H G, Scheller S. Analysis of the information content of terrestrial laserscanner point clouds for the automatic determination of forest inventory parameters. In Proc. Workshop on 3D Remote Sensing in Forestry, 2006.
  • 8Thies M, Pfeifer N, Winterhalder D et al. Three- dimensional reconstruction of stems for assessment of taper, sweep and lean based on laser scanning of standing trees. Scandinavian J. Forest Research, 2004, 19(6): 571-581.
  • 9Norbert Pfeifer, Ben Gorte, Daniel Winterhalder. Automatic reconstruction of single trees from terrestrial laser scanner data. In Proc. ISPRS Conf., Instanbul, Turkey, Int. Archives of Photogrammetry and Remote Sensing, Vol. XXXV, B5, 2004, pp.114-119.
  • 10David A Porsyth, Jean Ponce. Computer Vision: A Modern Approach. Prentice Hall, 2002.

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