共查询到18条相似文献,搜索用时 171 毫秒
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激光雷达技术(LiDAR)已广泛应用于数字高程模型(DEM)的快速获取和三维城市模型的建立中,但仍有许多不足之处,需要做更深入的研究。本文介绍了一种新的建筑物提取方法,称之为Fc-S法。该方法首先利用等高线特征进行滤波,从LIDAR数据内插的数字表面模型(DSM)中提取出DEM,利用DSM与DEM的高差阈值和DSM边缘特征参数去掉地面点和汽车等矮小物体,获得主要包含植被和建筑物的地物点群,然后对地物点群进行分割,利用二次梯度和面积等参数去掉植被点,并采用迭代逼近的方法精化建筑物。文章通过实验对所提方法进行验证,并借助高分辨率的航空影像对建筑物提取结果进行评估,评估结果表明该方法能够在地形起伏的区域中较准确地提取出建筑物。 相似文献
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针对传统航空影像获取的DSM在立面及局部地面、建筑物屋顶空间信息的不足,获取高精度DEM较为困难的问题,提出了基于倾斜影像提取高精度DEM的方法。首先对倾斜影像获取的点云DSM结构进行分析,得出了DSM具有几何约束特点,能够在城区很好地区分地面点和地物点;然后指出对DSM滤波处理是获取高精度数字高程模型(DEM)的关键技术,提出了基于法向量差值区域生长分割TIN的滤波方法;最后选取吉林省敦化市的倾斜影像数据进行了滤波试验和算法验证。试验结果表明,该方法能够快速、有效地滤除不同尺寸的建筑物、植被和其他地物,获取高精度DEM。 相似文献
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平坦地区DSM到DEM的试验 总被引:2,自引:0,他引:2
讨论了平坦地区根据影像匹配的结果将DSM修正成DEM的方法,针对平坦地区一般都有建筑物和树木,利用其本身的地形特点,提出附近最小值方法自动修正DSM以获得近似正确DEM的方法。并对试验结果的精度进行了检查,发现试验的结果比影像匹配后的结果要精确许多,将建筑物和树木等植被的高程去掉,得到比较精确的DEM数据。 相似文献
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介绍了LiDAR数据生产DEM处理流程,选取淮河某一区域的点云数据,重点研究自动滤波技术在高树植被区域、居民区域、光伏区域的滤波效果以及人工分类方法在低矮植被区域的分类效果,计算野外检测点,对DEM同名点高程中误差进行精度评定。实验结果表明,自动滤波技术对高树植被、房屋区域、光伏区域等区域点云,能高效、准确滤掉非地面点,保留真实地面点;人工分类手段用于低矮植被分类效果明显,有效解决了自动滤波在该类区域分类效果不佳的问题;野外检测点和DEM同名点高程中误差满足设计精度要求,以点云数据生产高精度DEM具有可行性。 相似文献
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针对图像密集匹配生产的数字表面模型(DSM)进行点云滤波,算法对地形依赖大,参数设置复杂,精度不高,后续人工编辑修饰的工作量大、效率低的问题,该文设计了第一套针对DSM滤波、涵盖多种样本形式(栅格、矢量)的航空图像建筑物数据集。针对航空图像建筑物尺度较大等特点,将膨胀卷积加入U-Net构成Dilated U-Net,并综合运用其进行建筑物语义分割,利用分割结果在相应图像密集匹配得到的DSM上滤除建筑物点,然后采用投票插值策略得到过滤掉建筑物点的DSM。实验证明:利用该文网络DU-Net将DSM中非地面建筑物点滤除,Ⅰ类误差在5.8%以内,Ⅱ类误差在2.4%以内,其可以在30 s内完成超过9000万个建筑点与非建筑物点位置的预测,效率高、成本低。DU-Net网络建筑物语义分割过程不受地形、高差的限制,对于其他非地面点的滤波具有一定的借鉴意义。 相似文献
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通过真正射影像快速构建三维建筑物场景的方法 总被引:1,自引:1,他引:0
数字摄影测量技术正从单机工作方式向系统集成的工作方式转变,获取和处理空间数据已变得较为容易。在三维数字城市建筑物建模方面,要求必须快速有效地提取建筑物边界,才有可能进行快速的三维景观建模作业。本文提出了利用DSM和真正射影像相结合构建地形景观的一种新方法,首先从真正射影像上提取建筑物的边界线,对建筑物多边形进行三角化处理,视地面模型为一带洞多边形,同样进行Delaunay三角化处理,接着从DSM和DEM获取建筑物的高度信息,构建三维建筑物模型,最后通过纹理映射的方式,对整个建模场景进行纹理贴图,这一方法取得了较好效果,已经在生产实践中得到了应用。 相似文献
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一种基于形态学的激光雷达数据滤波算法的改进 总被引:1,自引:0,他引:1
机载激光雷达是DEM生产的重要技术手段之一.为了获取高分辨率的DEM,首先要将建筑物、车辆、植被等非地面点去除,这一过程称为滤波.本文在现有算法的基础上提出一种改进的形态学滤波算法.该算法逐步增大滤波窗口尺寸,并采用自适应的高差阈值,较好地保留了地形拓扑信息.试验采用ISPRS提供的参考数据进行测试分析,该数据代表典型... 相似文献
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在无控制点的卫星影像正射校正中,大多采用DSM/DEM数据作为辅助数据来消除或限制因地形起伏引起的形变,然而经不同格网密度的DSM/DEM正射校正后的影像对后续处理会产生不同程度的影响,如对地物分类精度产生影响。针对这一问题,本文分别采用不同的DSM/DEM数据(China DSM 15 m、ASTER GDEM 30 m和SRTM 90 m)对资源三号影像进行正射校正,然后对正射校正后影像利用支持向量机进行分类,比较正射校正后影像结果的分类精度。结果表明:在相同重采样方法下,影像经China DSM 15 m DSM正射校正后结果的分类精度优于ASTER GDEM 30 m DEM和SRTM 90 m DEM。 相似文献
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MARILYN O RUIZ 《Transactions in GIS》1997,2(1):85-94
Users of GIS are faced with the ongoing and difficult problem of estimating the validity of a GIS output given the uncertainty of the quality of digital mapped data. This research project examines the manner in which error from a digital elevation model (DEM) results in error in an estimate of a viewshed. The data set includes two DEMs for the same study area. A 10-metre DEM serves as the control model to test a United States Geological Survey (USGS) DEM. The amount and spatial pattern of the error in the test DEM is determined by comparing it to the control DEM. A viewshed analysis is then performed at a set of 61 sites. After determining the relative accuracy of the viewsheds thus estimated, a causal model of viewshed error is developed, which links the sources of the DEM error with the error in the viewshed. The most important factor in DEM error is terrain roughness. The error in the viewsheds is a result of the error being propagated from the DEM, with landscape characteristics of the viewpoinr playing a role due to their effect on the error in the DEM. The conceptual path model developed sets the stage for a quancitative approach that will attempt to predict viewshed error from the landscape characteristics without direct knowledge of the error in the DEM. 相似文献
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Antonio Rodriguez Cervilla Siham Tabik Jesús Vías Matías Mérida Luis F. Romero 《Transactions in GIS》2017,21(3):591-607
The 3D perception of the human eye is more impressive in irregular land surfaces than in flat land surfaces. The quantification of this perception would be very useful in many applications. This article presents the first approach to determining the visible volume, which we call the 3D‐viewshed, in each and all the points of a DEM (Digital Elevation Model). Most previous visibility algorithms in GIS (Geographic Information Systems) are based on the concept of a 2D‐viewshed, which determines the number of points that can be seen from an observer in a DEM. Extending such a 2D‐viewshed to 3D space, then to all the DEM‐points, is too expensive computationally since the viewshed computation per se is costly. In this work, we propose the first approach to compute a new visibility metric that quantifies the visible volume from every point of a DEM. In particular, we developed an efficient algorithm with a high data and calculation re‐utilization. This article presents the first total‐3D‐viewshed maps together with validation results and comparative analysis. Using our highly scalable parallel algorithm to compute the total‐3D‐viewshed of a DEM with 4 million points on a Xeon Processor E5‐2698 takes only 1.3 minutes. 相似文献
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栅格DEM的水平分辨率对地形信息的影响分析 总被引:4,自引:0,他引:4
数字高程模型(DEM)是当前用于地形分析的主要数据源,可以从DEM提取不同的地形因子得到地形信息为各种地学分析提供基础服务。对三峡库区应用6种不同网格分辨率进行地形因子数据的提取和分析。研究表明,DEM的水平分辨率对地形信息的精确性有影响,网格的增大增加了DEM对地形信息的概括.应根据不同的需要选择不同分辨率的DEM。 相似文献
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Deriving a minimum set of viewpoints for maximum coverage over any given digital elevation model data 总被引:2,自引:0,他引:2
This paper introduces how to automatically derive a minimum set of viewpoints for maximum coverage over a large scale of digital terrain data. This is a typical data and computation-intensive research covering a series of geocomputation tasks that have not been implemented efficiently or optimally in prior works. This paper introduces a three-step computational solution to resolve the problem. For any given digital elevation model (DEM) data, automatic generation of control viewpoints is the first step through map algebra calculation and hydrological modeling approaches. For each viewpoint, the viewshed calculation then has to be implemented. The combined viewshed derived from the viewshed of all viewpoints establishes the maximum viewshed coverage of the given DEM. Finally, detecting the minimum set of viewpoints for the maximum coverage is a Non-deterministic Polynomial-time hard problem. The outcome of the computation has broader societal impacts since the research questions and solutions can be adapted into real-world application and decision-making practice, such as the distribution, optimization and management of telecommunication infrastructure and wildfire observation towers, and military tactics and operations dependent upon landscape and terrain features. 相似文献
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Propagating effects of database generalization on the viewshed 总被引:2,自引:0,他引:2
PETER FISHER 《Transactions in GIS》1996,1(2):69-81
Few studies have systematically examined the effects of different possible generalization methods on the products of GIS operations. In this paper the effects of generalizing a Digital Elevation Model (DEM) on the area which is determined to be visible (the viewshed) is examined. Among the many different methods of generalization which are possible, a limited set of operators is examined here. First, they all fit geometrically from one resolution to another, and they can be grouped into two types: regular sampling and statistical summaries. In the latter class four different operations are used: for any cell at the target resolution, elevations are determined, from the arithmetic mean, the maximum, the minimum, and the maximum difference from the mean of the cells within the kernel at the original scale. Changes in resolution of 0.5, 0.33, 0.25, and 0.2 of the original study area are studied at 100 viewing points in each of two study areas. At the original resolution a 120 × 120 pixel area was examined, giving generalizations to 60 × 60, 40 × 40, 30 × 30, and 24 × 24 pixels. The viewsheds determined over these different resolution DEMs are compared with a number of possible viewsheds derived by generalization of the viewshed over the original DEM. Of those tested, the maximum deviation from the mean within kernel emerges as the most reliable estimate of the pattern and area of the viewshed at all resolutions. The importance of this conclusion is that different generalization operators yield more or less faithful versions of the ungeneralized product (the viewshed), and it seems indicative that a similar variety in stability of the product with generalization operator will result in many, if not all, complex products of spatial analysis. 相似文献