农业工程学报
農業工程學報
농업공정학보
2013年
22期
180-188
,共9页
方慧%杜朋朋%胡令潮%何勇
方慧%杜朋朋%鬍令潮%何勇
방혜%두붕붕%호령조%하용
计算机模拟%图像配准%可视化%植株三维点云%迭代最近点算法%可视化类库%植物
計算機模擬%圖像配準%可視化%植株三維點雲%迭代最近點算法%可視化類庫%植物
계산궤모의%도상배준%가시화%식주삼유점운%질대최근점산법%가시화류고%식물
computer simulations%image registration%visualization%plant point cloud%iterative closest point%VTK%plants
精确的植物三维静态形态结构模型有助于植物空间结构相关的各种研究,是虚拟植物、植物建模等问题研究的一个重要方面。研究植物生长过程中的三维信息的获取可以获得作物生长过程中各参数的动态数据,可为精细农业植物生长模型建立等提供依据。该文以植物为研究对象,介绍了虚拟植物及植物三维可视化的研究现状,讨论了植物叶片三维可视化的可行性及必要性。针对植物三维点云的采集与处理上,讨论了三维扫描仪的精度测定方法,并针对基于基准体的植株点云配准问题,提出采用基准体点云平均法向量计算的方法,去除了部分基准体表面的噪声点,提高了植株体的配准精度;采用迭代最近点(iterative closest point,ICP)算法,对植株叶片进行进一步的高精度配准。最后采用基于可视化类库VTK(visualization toolkit)实现了植物点云配准与三维可视化。
精確的植物三維靜態形態結構模型有助于植物空間結構相關的各種研究,是虛擬植物、植物建模等問題研究的一箇重要方麵。研究植物生長過程中的三維信息的穫取可以穫得作物生長過程中各參數的動態數據,可為精細農業植物生長模型建立等提供依據。該文以植物為研究對象,介紹瞭虛擬植物及植物三維可視化的研究現狀,討論瞭植物葉片三維可視化的可行性及必要性。針對植物三維點雲的採集與處理上,討論瞭三維掃描儀的精度測定方法,併針對基于基準體的植株點雲配準問題,提齣採用基準體點雲平均法嚮量計算的方法,去除瞭部分基準體錶麵的譟聲點,提高瞭植株體的配準精度;採用迭代最近點(iterative closest point,ICP)算法,對植株葉片進行進一步的高精度配準。最後採用基于可視化類庫VTK(visualization toolkit)實現瞭植物點雲配準與三維可視化。
정학적식물삼유정태형태결구모형유조우식물공간결구상관적각충연구,시허의식물、식물건모등문제연구적일개중요방면。연구식물생장과정중적삼유신식적획취가이획득작물생장과정중각삼수적동태수거,가위정세농업식물생장모형건립등제공의거。해문이식물위연구대상,개소료허의식물급식물삼유가시화적연구현상,토론료식물협편삼유가시화적가행성급필요성。침대식물삼유점운적채집여처리상,토론료삼유소묘의적정도측정방법,병침대기우기준체적식주점운배준문제,제출채용기준체점운평균법향량계산적방법,거제료부분기준체표면적조성점,제고료식주체적배준정도;채용질대최근점(iterative closest point,ICP)산법,대식주협편진행진일보적고정도배준。최후채용기우가시화류고VTK(visualization toolkit)실현료식물점운배준여삼유가시화。
A virtual plant growth model is very important to agriculture and a crop growth mechanism model. The precise three-dimensional morphological structure of the plant model can be used to study the spatial structure associated with the nature of plants. The acquisition of a plant 3D point cloud is the first step to establish a plant 3D model. In this paper, the registration method and visualization method of the plant point cloud were mainly researched. At first, the research status of virtual plants and plant three-dimensional visualization was introduced, and the feasibility and necessity of the three-dimensional visualization of plant leaves was discussed. Then, a point normal calculation method of registration sphere was studied. Ensemble technology was used to improve the accuracy of the point normal value. By this technology, the normal value of the point cloud was substituted by the normal average value. This was done so that more accurate sphere centers could be calculated and we could get more accurate rotation shaft which was necessarily to register 3D points acquired from different sides. The outlier points and noise points of the original 3D point cloud can be removed at the same time. The point normal value is closely related to the number of point neighbors which are involved in the point normal calculation. So the effect of the number of point neighbors on calculating point normal was discussed and compared. The Moving Lease Squares (MLS) was used to fit the surface of the registration sphere, and Gaussian curvature was calculated to recheck the accuracy of point normals. Two aluminum alloy elements were designed to evaluate the accuracy of the 3D point cloud collection equipment. Moreover, to improve the registration effect of plant leaves, the iterative closest point (ICP) algorithm was used. At last, a point cloud processing system was developed based on Microsoft Visual Studio C++2010. The open source development toolkit:Visualization Toolkit was used to realize the 3D point cloud visualization effect and registration algorithms.