现代农业科技
現代農業科技
현대농업과기
XIANDAIHUA NONGYE
2014年
3期
340-343
,共4页
辛龙娇%徐立鸿%李大威%付代昌
辛龍嬌%徐立鴻%李大威%付代昌
신룡교%서립홍%리대위%부대창
可视化%参数L-系统%温室番茄%植株%三维重建
可視化%參數L-繫統%溫室番茄%植株%三維重建
가시화%삼수L-계통%온실번가%식주%삼유중건
visualization%parametric L-system%greenhouse tomato%plant%3D reconstruction
研究利用参数L-系统对温室番茄植株的生长过程进行快速高效的三维可视化仿真的方法。首先根据番茄植株的生长特点从图像中提取植株骨架,分析其拓扑结构,总结出番茄植株生长的参数L-系统公式集,然后利用图像与计算机图形学相结合的方法,对公式集进行图形符号解释,模拟再现番茄植株的生长过程。为了保证真实性,重建的虚拟番茄植株的茎干骨架利用来自Kinect数字化结果的真实番茄植株的茎干样本进行绘制;叶片采用了基于图像与图形相结合的方法重建,花和果实用纯图形学方法进行模拟。在VC++平台上,结合OpenGL图形库实现了可视化仿真过程。研究中所提出的方法能够较好地模拟温室番茄植株动态生长的过程,同时具备快速性与真实性。
研究利用參數L-繫統對溫室番茄植株的生長過程進行快速高效的三維可視化倣真的方法。首先根據番茄植株的生長特點從圖像中提取植株骨架,分析其拓撲結構,總結齣番茄植株生長的參數L-繫統公式集,然後利用圖像與計算機圖形學相結閤的方法,對公式集進行圖形符號解釋,模擬再現番茄植株的生長過程。為瞭保證真實性,重建的虛擬番茄植株的莖榦骨架利用來自Kinect數字化結果的真實番茄植株的莖榦樣本進行繪製;葉片採用瞭基于圖像與圖形相結閤的方法重建,花和果實用純圖形學方法進行模擬。在VC++平檯上,結閤OpenGL圖形庫實現瞭可視化倣真過程。研究中所提齣的方法能夠較好地模擬溫室番茄植株動態生長的過程,同時具備快速性與真實性。
연구이용삼수L-계통대온실번가식주적생장과정진행쾌속고효적삼유가시화방진적방법。수선근거번가식주적생장특점종도상중제취식주골가,분석기탁복결구,총결출번가식주생장적삼수L-계통공식집,연후이용도상여계산궤도형학상결합적방법,대공식집진행도형부호해석,모의재현번가식주적생장과정。위료보증진실성,중건적허의번가식주적경간골가이용래자Kinect수자화결과적진실번가식주적경간양본진행회제;협편채용료기우도상여도형상결합적방법중건,화화과실용순도형학방법진행모의。재VC++평태상,결합OpenGL도형고실현료가시화방진과정。연구중소제출적방법능구교호지모의온실번가식주동태생장적과정,동시구비쾌속성여진실성。
Using a parametric L-system,a fast and effective 3D reconstruction method for the growth of greenhouse tomato plant was proposed. Based on the observation and analysis on the stereo structure of tomato plant ,rules and parameters were extracted to assemble an L-system that was able to simulate the plant growth,and then the characteristics of the L-system into plant organ entities were interpreted by image processing and computer graphics techniques.During reconstruction ,in order to guarantee the faithfulness to the real tomato plant ,the reconstructed tomato stem skeleton was consisted of real tomato stem samples collected and analyzed by Kinect in a digitization process.The 3D reconstruction of tomato leaf was based on real leaf images and simulated images.The 3D reconstruction of tomato flowers was purely graphic process.The 3D reconstruction of tomato fruits was presented differently according to its degree of ripeness.The proposed method was realized and visualized on a VC++platform with the standard graphic programming interface OpenGL.A complete growth process of greenhouse tomato plant was illustrated.By comparing the visualized model with an actual plant,it was verified that the proposed method could efficiently and faithfully simulate the growing process of greenhouse tomato plant.