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引用次数: 69

摘要

本文提出了一种主要用于数字高程地图(DEM)重建的算法。我们的方法基于一种快速且高度可控的分形算法,我们能够根据给定的约束创建dem。因此,这些约束可以作为卫星获得的分散高程数据集给出,我们的方法对这些数据进行超采样并创建相应的平滑地形表面。此外,由于画家可以对他的模型进行素描,最终用户可以给出或编辑他想要的DEM的主要特征,局部细节和形态,立即获得最终的地形表面。请注意,对局部约束的数量没有限制(可以从0到最终DEM的点数不等)。因此,我们提出的方法提供了修改全局方面(表面行为)以及约束最终地形模型的任何局部细节的能力。本文给出了算法和重构实例。通过对原始模型与下采样重建模型的均方根误差计算,验证了该方法的良好性能和有效性。介绍了其他各种地形模型和替代应用。
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Terrain modeling: a constrained fractal model
We present an algorithm mainly designed to reconstruct Digital Elevation Maps (DEM). Our approach relays on a fast and highly controllable fractal-based algorithm, we are able to create DEMs according to given constraints. Thus, these constraints can be given as scattered dataset of elevations obtained by satellite, our method supersamples this data and creates the according smooth terrain surface. Moreover, as a painter can make a sketch of his model, the final user can give or edit the main characteristics, local details and morphology, of his wanted DEM instantaneously obtaining the resulting terrain surface. Note that there is no limitation on the number of local constraints (that could vary from 0 to the number of points of the final DEM). Thus, the method we propose gives the ability to modify the global aspect (the surface behavior) as well as to constrain any local detail of the final terrain model. This paper presents the algorithm and reconstruction examples. Using a Root Mean Square Error computation between an original model and its downsampled-then-reconstructed version, the results confirm the method good behavior and show its efficiency. Other various terrain models and alternative applications are presented.
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