A survey of 3D visualization modeling technologies for trees

doi:10.3969/j.issn.1000-2006.2015.06.026

JOURNAL OF NANJING FORESTRY UNIVERSITY ›› 2015, Vol. 39 ›› Issue (06): 148-154.doi: 10.3969/j.issn.1000-2006.2015.06.026

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A survey of 3D visualization modeling technologies for trees

HU Chunhua¹,LI Pingping^2*

1. College of Information Science and Technology, Nanjing Forestry University, Nanjing 210037, China;
2. College of Biology and the Environment, Nanjing Forestry University, Nanjing 210037, China

Online:2015-11-30 Published:2015-11-30

Abstract

CLC Number:

TP391

HU Chunhua,LI Pingping. A survey of 3D visualization modeling technologies for trees[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY, 2015, 39(06): 148-154.

[1] Barczi J F, Rey H, Caraglio Y, et al. AMAPsim: an integrative whole-plant architecture simulator based on botanical knowledge[J]. Annals of Botany, 2008, 101(8):1125-1138.
[2] Prusinkiewicz P, Remphrey W, Davidson C, et al. Modeling the architecture of expanding Fraxinus pennsylvanica shoots using L-systems[J].Canadian Journal of Botany, 1994, 72:701-714.
[3] Kang M Z, Cournède P H, de Reffye P, et al. Analytical study of a stochastic plant growth model: Application to the GreenLab model[J]. Mathematics and Computers in Simulation, 2008,78(1):57-75.
[4] 许文强. 简化条件下树木在风中运动和向光性生长的三维模拟[D].福州:福州大学,2010. Xu W Q.3D simulation on tree movement in wind and phototropic growth under simplified conditions[D].Fuzhou:Fuzhou University,2010.
[5] Rosell J R, Sanz R. A review of methods and applications of the geometric characterization of tree crops in agricultural activities[J]. Computers and Electronics in Agriculture, 2012, 81: 124-141.
[6] 谭云兰,贾金原,张晨,等. 3D 树木建模技术研究进展[J]. 中国图像图形学报,2013,18(11): 1520-1528. Tan Y L,Jia J Y,Zhang C,et al. Survey on virtual 3D tree modeling technologies[J]. Journal of Image and Graphic, 2013,18(11): 1520-1528.
[7] Kawaguch Y. A morphological study of the form of nature[C]//SIGGRAPH'82:Proceedings of the 9th annual conference on computor graphics and interactive technigues.New York: ACM Press, 1982:223-236.
[8] Nikinmaa E, Messier C, Sievänen R, et al. Shoot growth and crown development: effect of crown position in three-dimensional simulations[J]. Tree Physiology 2003, 23(2):129-136.
[9] Bloomenthal J. Modeling the mighty maple[C]//SIGGRAPH'85: Proceedings of the 12th annual conference on computer graphics and interactive techniques. New York:ACM Press,1985.
[10] Weber J, Penn J. Creation and rendering of realistic trees[C]// SIGGRAPH'95: Proceedings of the 22nd annual conference on computer graphics and interactive techniques. New York:ACM Press, 1995.
[11] Wesslén D, Seipel S. Real-time visualization of animated trees[J]. The Visual computer, 2005, 21(6): 397-405.
[12] Runions A, Lane B, Prusinkiewicz P. Modeling trees with a space colonization algorithm[G]. Eurographics Workshop on Natural Phenomena, 2007: 63-70.
[13] Palubicki W, Horel K, Longay S, et al. Self-organizing tree models for image synthesis[J]. ACM Transactions on Graphics, 2009, 28(3): 58.
[14] 陶嗣巍,赵东. 树木几何结构快速建模的研究[J]. 北京林业大学学报, 2013, 35(2):97-101. Tao S W, Zhao D.Rapid parametric modeling of geometry structure for trees[J]. Journal of Beijing Forestry University,2013,35(2):97-101.
[15] 赵庆丹,罗传文,孙海洪,等. 基于OpenGL 和VC 的树木三维可视化模拟实现[J]. 东北林业大学学报,2010,38(11):54-57. Zhao Q D,Luo C W,Sun H H, et al. Realization of 3D tree visualization simulation based on OpenGL and VC[J]. Journal of Northeast Forestry University, 2010,38(11):54-57.
[16] Teng C H,Chen Y S. Image-based tree modeling from a few images with very narrow viewing range[J]. The Visual Computer, 2009, 25(4): 297-307.
[17] Kise M, Zhang Q, Rovira Más F. A stereovision-based crop row detection method for tractor-automated guidance[J]. Biosystems Engineering,2005, 90(4):357-367.
[18] Reche A,Martin I,Drettakis G. Volumetric reconstruction and in-teractive rendering of trees from photographs[J]. ACM Transac-tions of Graphics,2004,23(3): 720-727.
[19] Wu C Y, He L Y, Du X Q, et al. 3D reconstruction of Chinese hickory tree for dynamics analysis[J]. Biosystems Engineering, 2014,119:69-79.
[20] 吴谦,张怀清,陈永富.基于生长规律与图像相结合的树木叶片动态模拟[J]. 林业科学研究,2008, 21(S): 122-125 Wu Q, Zhang H Q, Chen Y F. Dynamic simulation about tree leaves based on the combination of growth regulation and image[J]. Forest Research, 2008, 21(S): 122-125.
[21] 王志和,张剑清,江万寿. 一种基于序列影像匹配的独立树冠可视化方法[J]. 测绘与空间地理信息, 2005, 28(1):39-44. Wang Z H, Zhang J Q, Jiang W S. A visualization method to reconstruct a unique crown based on sequential image matching[J]. Eomatics & Spatial Information Technology, 2005, 28(1):39-44.
[22] 李云峰, 朱庆生, 曹渝昆, 等.一种基于图像的快速虚拟植物可视化重建[J].计算机应用研究, 2005, 11(2): 253-257. Li Y F, Zhu Q S, Cao Y K, et al. A fast visual modeling plant based on images[J]. Computer Application Research, 2005, 28(1):39-44.
[23] Naesset E. Estimating timber volume of forest stands using airborne laser scanner data[J]. Remote Sensing of Environment,1997,61(2): 246-253.
[24] Naesset E. Determination of mean tree height of forest stands using airborne laser scanner data[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 1997, 52(2): 49-56.
[25] Palacin J, Palleja T, Tresanchez M, et al. Real-time tree-foliage surface estimation using a ground laser scanner[J]. IEEE Transactions on Instrumentation and Measurement, 2007, 56(4): 1377-1383.
[26] Méndez V, Rosell-Polo J R, Sanz R, et al. Deciduous tree reconstruction algorithm based on cylinder fitting from mobile terrestrial laser scanned point clouds[J]. Biosystems Engineering, 2014,124:78-88.
[27] 黄洪宇,陈崇成,邹杰. 基于地面激光雷达点云数据的单木三维建模综述[J]. 林业科学,2013,49(4):123-130. Huang H Y, Chen C C, Zou J. Tree geometrical 3D modeling from terrestrial laser scanned point clouds: A review[J]. Sientia Silvae Sinice, 2013,49(4):123-130.
[28] Vegaa C, Hamrouni A, Mokhtari S E, et al. PTrees: A point-based approach to forest tree extraction from lidar data[J]. International Journal of Applied Earth Observation and Geoinformation, 2014, 33:98-108.
[29] Pascual M, Villar J M, Rufat J, et al. Evaluation of peach tree growth characteristics under different irrigation strategies by LIDAR system: preliminary results[J]. Acta Horticulturae, 2011, 889:227-232.
[30] Sanza R, Rosell J R, Llorens J E, et al. Relationship between tree row LIDAR-volume and leaf area density for fruit orchards and vineyards obtained with a LIDAR 3D dynamic measurement system[J]. Agricultural and Forest Meteorology, 2013,171:153-162.
[31] Côté J F, Richard A F, Egli R. An architectural model of trees to estimate forest structural attributes using terrestrial LiDAR[J]. Environmental Modelling & Software, 2011, 26(6): 761-777.
[32] Alenyà G, Dellen B, Torras C. 3D modelling of leaves from color and ToF data for robotized plant measuring[C]//2011 IEEE International Conference on Robotics and Automation. Shanghai, China, 2011:3408-3414.
[33] Lindenmayer A. Mathematical models for cellular interactions in development[J]. Journal of Theoretical Biology, 1968, 18(3): 280-315.
[34] Prusinkiewicz P. Graphical applications of L-systems[C]// Proceedings of Graphics Interface,1986: 247-253.
[35] Anastacio F, Prusinkiwicz P, Souza M C. Sketch-based parameterization of L-systems using Illustration-inspired construction lines[C]// Proceedings of the EUROGRAPHICS Workshop on Sketch-Based Interfaces and Modeling, 2008:119-126.
[36] Rodkaew Y, Siripant S, Lursinsap C,et al. Modeling leaf shapes using L-system and genetic algorithms[C]//International Conference NICOGR APH. Tokyo,Japan,2002:73-78.
[37] 王春华,杨克俭. 基于L-系统和Perlin 噪声函数的风吹树动模拟[J].计算机工程, 2009, 35(12):192-197. Wang C H, Yang K J. Simulation of trees' swinging driven by wind based on L-system and perlin noise function[J]. Computer Engineering, 2009, 35(12):192-197.
[38] 林郁欣,唐丽玉,陈崇成. 基于组合型L-系统的单树建模工具的设计与实现[J]. 农业工程学报,2011,27(3):185-190. Lin Y X, Tang L Y, Chen C C, et al. Design and Implementation of tree individual modeling tool based on compounded L-system[J]. Transactions of the CSAE, 2011, 27(3): 185-190.
[39] Mandelbrot B B. The Fractal aspects of iteration of z∧z(1-2)for complex ∧ and z[J]. Annals of the New York Academy of Sciences, 1980, 357(1): 249-259.
[40] Barnsley M F, Demko S. Iterated function system and the global construction of fractals[C]// Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences: The Royal Society, 1985, 399(1871):243-275.
[41] Zhou J, Chen L T, Liu Q H, et al. Fractal-based 3d tree modeling[C]// 2010 International Conference on Computer Design and Applications. Qinhuangdao, 2010:454-457.
[42] 肖海蓉. 基于IFS分形算法的树木形态分析与实现[J]. 计算机仿真,2011,28(6):274-279. Xiao H R. Analysis and realization about tree forms based on IFS fractal a lgorithm[J]. Computer Simulation, 2011,28(6):274-279.
[43] 夏存景.利用分形理论进行植物真实感绘制的研究[D]. 济南: 山东大学, 2007. Xia C J. Research of the plants reality render by fractal[D]. Ji'nan:Shandong University,2007.
[44] Reeves W. Particle systems-a technique for modeling a class of fuzzy objects[J]. Computer Graphics,1983, 17(3):359-376.
[45] Neubert B,Franken T,Deussen O. Approximate image-based tree-modeling using particle flows[J]. ACM Transactions on Graph-ics,2007,26(3): 88.
[46] 熊海桥,蒋立华,罗轶先,等. 基于粒子系统的物理约束植物根生长建模[J].计算机应用,2002, 22(7):39-41. Xiong H Q, Jiang L H, Luo Y X, et al. A physically restrained plant root growing model based on particle system[J]. Computer Application, 2002, 22(7):39-41.
[47] 李京丽. 基于DLA虚拟植物叶片可视化建模技术研究[D]. 北京:北京林业大学,2011. Li J L. Study on realism plant leaf modeling based on DLA model[D]. Beijing: Beijing Forestry University, 2011.
[48] Chen X J,Neubert B,Xu Y Q,et al. Sketch-based tree modeling using Markov random field[J].ACM Transactions on Graphics, 2008,27(5):109-118.
[49] 熊瑛,张光年,郭新宇. 基于马尔可夫模型的苹果树枝条生长仿真[J].农机化研究,2009(7):70-73. Xiong Y, Zhang G N, Guo X Y, et al. Visual simulating growth of fruit tree branches based on markov model[J]. Journal of Agricultural Mechanization Research, 2009(7):70-73.
[50] Parveaud C E, Chopard J, Dauzat J, et al. Modelling foliage characteristics in 3D tree crowns: influence on light interception and leaf irradiance[J]. Trees, 2008, 22(1):87-104.
[51] 马韫韬, 郭焱,展志岗,等.玉米生长虚拟模型GREENLAB-Maize的评估[J].作物学报,2006, 3(7):956-963. Ma Y T, Guo Y, Zhan Z G, et al. Evaluation of the plant growth model GREENLAB-Maize[J]. Acta Agronomica Sinica, 2006, 3(7):956-963.
[52] 国红, 雷相, Letort V,等. 基于GreenLab原理构建油松成年树的结构-功能模型[J]. 植物生态学报, 2011, 35(4): 422-430. Guo H, Lei X, Letort V, et al. A functional-structural model for adults of Pinus tabulaeformis based on GreenLab[J]. Chinese Journal of Plant Ecology, 2011, 35(4): 422-430.
[53] 卢康宁. 基于生理生态模型的杉木形态结构变化可视化模拟研究[D]. 北京:中国林业科学研究院,2012. Lu K N. The research of visual simulation of morphological structure change of Cunninghamia lanceolata based on physiological and ecological model[D]. Beijing:Chinese Academy of Forestry,2012.
[54] 刘兆刚. 樟子松人工林树冠动态三维图形模拟技术的研究[D]. 哈尔滨:东北林业大学,2007. Liu Z G. The three dimensional computer graphics simulation technique of tree crown dynamic for Mongolian scots pine in plantation[D]. Harbin:Northeast Forestry University,2007.

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A survey of 3D visualization modeling technologies for trees

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