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DEM数据辅助的山脊线和山谷线提取方法的研究 总被引:13,自引:2,他引:13
从数字化地形资料中自动提取山脊线和山谷线的技术在测绘、工程设计等方面有着重要的意义。本文对现有的山脊线和山谷线自动提取的方法进行深入研究后 ,指出充分利用数据中所含有的地形信息是正确提取山脊线和山谷线的有效途径 ,那种试图仅依靠二维等高线形态分析的方法很难得到理想的结果。依照该思想本文设计出了一种基于DEM数据辅助的山脊线和山谷线提取方法。该方法先利用等高线数据建立区域地形概略DEM ,然后借助三维地形分析的技术辅助进行山脊线和山谷线的提取。文后通过实验验证了该方法的有效性 ,它所提取的山脊线和山谷线与实际地形相符合。 相似文献
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《International Journal of Digital Earth》2013,6(1):72-82
Abstract Digital elevation model (DEM) matching techniques have been extended to DEM deformation detection by substituting a robust estimator for the least squares estimator, in which terrain changes are treated as gross errors. However, all existing methods only emphasise their deformation detecting ability, and neglect another important aspect: only when the gross error can be detected and located, can this system be useful. This paper employs the gross error judgement matrix as a tool to make an in-depth analysis of this problem. The theoretical analyses and experimental results show that observations in the DEM matching algorithm in real applications have the ability to detect and locate gross errors. Therefore, treating the terrain changes as gross errors is theoretically feasible, allowing real DEM deformations to be detected by employing a surface matching technique. 相似文献
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Determination of complexity factor and its relationship with accuracy of representation for DEM terrain 总被引:1,自引:0,他引:1
Based on the estimating rule of the normal vector angles between two adjacent terrain units, we use the concept of terrain
complexity factor to quantify the terrain complexity of DEM, and then the formula of terrain complexity factor in Raster DEM
and TIN DEM is deduced theoretically. In order to make clear how the terrain complexity factor E
CF
and the average elevation h affect the accuracy of DEM terrain representation RMSE
Et
, the formula of Gauss synthetical surface is applied to simulate several real terrain surfaces, each of which has different
terrain complexity. Through the statistical analysis of linear regression in simulation data, the linear equation between
accuracy of DEM terrain representation RMSE
Et
, terrain complexity factor E
CF
and the average elevation h is achieved. A new method is provided to estimate the accuracy of DEM terrain representation RMSE
Et
with a certain terrain complexity and it gives convincing theoretical evidence for DEM production and the corresponding error
research in the future. 相似文献
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ABSTRACTVirtual globes are technologies for visual navigation through a three-dimensional, multi-resolution model of the entire planet. Data representations used in virtual globes, however, lack geometric flexibility at high-resolution levels of the planet-wide terrain surface. This is a problem especially if boundaries between individual geospatial features and the terrain are important. A novel integration of individual polygonal boundaries with a specific multi-resolution representation of the planet-wide terrain is developed in this article. In the preparation stage, the integration relies on an original simplification algorithm applied to the polygonal boundaries between geospatial features and the terrain. Its output is a multiple level-of-detail (LOD) geometry, which can be combined with a known multi-LOD representation of the terrain that uses run-time triangulation. This data representation is suitable for storage in existing database systems, avoids any data redundancy across LODs, and is even independent of the subdivision schema that partitions the planet's surface for the sake of dealing with LODs. At run-time, a novel reconstruction algorithm stitches geometric parts from different LODs together in a manner that augments the multi-LOD representation of the terrain. Within a certain proximity range from a given position, the method reconstructs a scene that preserves topological relations between the boundaries of geospatial features with the terrain. The method also guarantees that certain nearest proximity to the given position consists of the best geometries that correspond to the original datasets. Such properties of the method close up the gap between a mere exploratory visualization of static, pre-generated models and the models supporting geospatial analysis, which is deemed crucial for applications in Geographic Information Systems, Building Information Modelling and other software industries. A prototype implementation and experiment results that prove this method are also presented. 相似文献
6.
none 《The Cartographic journal》2013,50(2):145-156
AbstractIn this paper a new approach for generalization of contours is described. The aim of this approach is to obtain both simplified and smoothed contours lying on a minimum number of characteristic points and inside the error bands. Characteristic points of contours are defined in relation to the skeleton lines of the terrain and determined using the deviation angles at the contour points. Error bands for contours are constructed by means of the steepest slope lines and the mean square planimetric errors at the contour points. The new approach is compared to the Li-Openshaw algorithm according to the experimental testing results. 相似文献
7.
《The Cartographic journal》2013,50(3):195-197
AbstractA novel method called multidirectional visibility index (MVI) has been developed and verified. The MVI improves standard cartographic analytical shading with a number of enhancements to topographic detail and prominent structures, i.e. the portrayal of flat areas in lighter tones, the accentuation of morphologic edges, and the multiscale visualisation of morphologic terrain features. The procedure requires a digital elevation model (DEM) and involves the following steps: visibility mask computation; the respective multidirectional altering of the azimuth and elevation angle; the generation of continuous grid MVIs that indicate upper/lower views, quasi-slope, and relative relief; and an appropriate visualisation of the relevant MVI as a standalone technique or in combination with standard hill-shaded relief. The modelling parameters are robust and therefore highly adaptive to different landforms. 相似文献
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针对边坡的台阶状地形特征是露天矿地形表达的关键和难点问题,该文基于边坡台阶要素的空间关系建立边坡层次关系模型,采用一种逐层加入扩展点和约束线的方法生成扩展约束TIN模型,将某露天煤矿作为实验区,实现了露天矿DEM的动态建模。结果表明:提高了边坡坡面的层级可视化效果,保持了地形结构的完整性,实现了边坡实体单元的分层次表达,能够获得不同水平层次的DEM数据。基于边坡特征分析的分层约束方法为露天矿DEM的构建提供了一种思路,可为边坡监测、灾变分析和灾情预测等领域提供精确的地形数据。 相似文献
10.
Bernhard Jenny 《制图学和地理信息科学》2021,48(1):78-92
ABSTRACT Line integral convolution is a technique originally developed for visualizing vector fields, such as wind or water directions, that places densely packed lines following the direction of movement. Geisthövel and Hurni adapted line integral convolution to terrain generalization in 2018. Their method successfully removes details and retains sharp mountain ridges; it is particularly suited for creating generalized shaded relief. This paper extends line integral convolution generalization with a series of enhancements to reduce spurious artifacts, accentuate mountain ridges, control the level of detail in mountain slopes, and preserve sharp transitions to flat areas. The enhanced line integral convolution generalization effectively removes excessive terrain details without changing the position of terrain features. Sharp mountain ridgelines are accentuated, and transitions to flat waterbodies and valley bottoms are preserved. Shaded relief imagery derived from generalized elevation models is visually pleasing and resembles manually produced shaded relief. 相似文献
11.
TIN模型通过从不规则分布的数据点生成的连续三角面来逼近地形表面,就表达地形信息的角度而言,TIN模型的优点是它能以不同层次的分辨率来描述地形表面。但在相关软件对离散数据生成TIN模型时会出现边缘失真现象,特别是当一些离散数据出现凹区域时,凹区域地形逼近失真现象相当明显。而在这些凹区域大多生成的三角网以钝角三角形居多,本文对离散数据TIN模型生成DEM时存在凹区域地形逼近失真现象进行了研究。提出一种大钝角剖分与最小二乘法约束迭代算法优化TIN模型。首先对原始TIN模型中大于100°小于1800的钝角三角形进行遍历记录,然后利用最小二乘法约束迭代算法进行优化,通过此算法优化后的TIN模型生成DEM数据,分别从小区域面积稳定性与剖面拟合实际地形进行了试验与精度对比,试验显示这种算法是可行的。 相似文献
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提出一种基于汇水区合并的结构化DEM综合方法。使用汇水区作为联系谷地实体与DEM数据网格点的纽带,在次要谷地删除的基础上进行谷地汇水区的合并,以合并后的汇水区边界线(汇水区边界包含山脊线、山顶和鞍部三种地形骨架)和谷底线为约束条件进行DEM内插,从而实现结构化DEM综合。实验表明,该方法在删除次要地形特征的同时,能较好地保持主要地形结构特征。 相似文献
13.
Digital Elevation Model (DEM) is a quantitative representation of terrain and is important for Earth science and hydrological applications. DEM can be generated using photogrammetry, interferometry, ground and laser surveying and other techniques. Some of the DEMs such as ASTER, SRTM, and GTOPO 30 are freely available open source products. Each DEM contains intrinsic errors due to primary data acquisition technology and processing methodology in relation with a particular terrain and land cover type. The accuracy of these datasets is often unknown and is non-uniform within each dataset. In this study we evaluate open source DEMs (ASTER and SRTM) and their derived attributes using high postings Cartosat DEM and Survey of India (SOI) height information. It was found that representation of terrain characteristics is affected in the coarse postings DEM. The overall vertical accuracy shows RMS error of 12.62 m and 17.76 m for ASTER and SRTM DEM respectively, when compared with Cartosat DEM. The slope and drainage network delineation are also violated. The terrain morphology strongly influences the DEM accuracy. These results can be highly useful for researchers using such products in various modeling exercises. 相似文献
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《测量评论》2013,45(15)
AbstractWith regard to the cadastral maps of New Zealand it may be observed that the function of any particular class of map in this Dominion depends very much on whether it is a representation of the area, boundaries, and ownership of freehold lots, a subdivision of Native land, or one of the various leasehold tenures of Crown land. 相似文献
17.
根据地理国情普查项目的需要,充分利用基础地理信息数据中的等高线、高程点、地形结构线等信息,更精细地反映起伏变化剧烈地区的地形特征,满足地理国情分析统计和应用的需要。本文详细论述了GeowayDPS软件在DEM精细化制作、裁切及质量控制方面的作业优势,为地理国情普查提供优质的基础数据。 相似文献
18.
不同空间尺度DEM地形信息容量综合对比研究 总被引:1,自引:0,他引:1
DEM包含了大量地形信息,是进行地形分析的基本数据。由于DEM数据的多尺度因素,加之地形、地貌特征具有宏观性与区域分异性的特点,不同尺度下的DEM地形信息容量具有较大的差异。本研究选取黄土高原地区的绥德、佳县、富县和宜君县四个实验样区,以Arc view/GIS软件为技术平台,提取了基于DEM数据的地形因子,并运用比较分析与数理统计的方法,对地形因子的提取结果进行了分析,获取了单一值因子的量化表达模型,确定了DEM地形信息容量与分辨率、地域及比例尺之间的量化相关关系,并在此基础上分析了DEM地形信息容量在不同空间尺度上的分异规律。 相似文献
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Abstract Statistical tools were used to evaluate the relationships between observed fire effects and characteristics identifiable in pre‐fire multispectral and terrain data. Random points were placed within field delimited polygons representing areas of high and low canopy mortality. Each point was then used to extract Landsat TM based pre‐fire spectral characteristics and DEM derived terrain characteristics. The values for these random points were subjected to a multivariate discriminant analysis to ascertain whether specific spectral bands, indices, terrain characteristics, or specific combinations of these, could be effectively associated with the observed fire effects. Data values for high and low mortality points were found to be significantly different for all the pre‐fire data sets. The normalized difference vegetation index (NDVI) and tasseled cap greenness values provided the highest magnitude of direct differentiation between high and low mortality points. Discriminant analysis revealed that NDVI had the highest correspondence to degree of future canopy mortality, while the combined effect of the pre‐fire spectral response provided a prediction of observed fire effects with 87% accuracy, and the addition of terrain data improved accuracy to 90%. 相似文献