基于lidar导出的地形表面模型的日照模型

2018 IEEE 8th International Conference on System Engineering and Technology (ICSET) Pub Date : 2018-10-01 DOI:10.1109/ICSENGT.2018.8606393

N. Saad, J. R. A. Hamid, N. M. Saraf, Maisarah Abdul Halim, A. N. Idris, N. Khalid

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引用次数: 0

摘要

基于基于LiDAR数据的地形表面模型，研究地形要素之间的关系及其对入射太阳辐射(日晒)值的影响，重点比较了研究区直接、漫射和全局辐照度的DSM和DTM日晒值。由于不同的表面类型和材料，预计日晒会以某种方式改变初始太阳能。因此，模拟太阳光线与地球大气、表面及其物体相互作用时的日照模式，对于包括绿色建筑技术概念在内的许多应用都是至关重要的。在本研究中，为了重建代表地表的地表模型，使用高分辨率机载LiDAR数据集生成DTM和dsm。对这些模型的可靠性进行了验证。将衍生产品进一步结构化为TIN，并在ArcGIS环境中进行地形分析和建模。基于直接辐照度、漫射辐照度和全局辐照度，推导并区分了辐照度模型。然后，确定了与地形要素对应的模式，并对结果进行了讨论。

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Insolation Model from LiDAR-Derived Topographical Surface Models

This paper intent to investigate the relationship of topographic elements and its effect on incoming solar radiation (insolation) value based on topographical surface model derived from LiDAR data and highlights on the comparison of DSM and DTM insolation value for direct, diffuse and global irradiance of the study area. The insolation is expected to somehow change in regard to the initial solar energy due to the differing surface types and materials. Modelling the pattern of insolation of the Sun’s rays as it interacts with the Earth’s atmosphere, surface, and its objects is thus vital for many applications including in the context of green building technology concept. In this study, to reconstruct the surface models that represent the surface, high resolution airborne LiDAR datasets were used to produce the DTM and DSMs. The reliability of these models was verified accordingly. The derived products were further structured as TIN and topographic analysis as well as modelling was performed within ArcGIS environment. Models of irradiance were derived and distinguished based on the direct, diffuse and global irradiance. Then, pattern correspond to the topographical elements was determined and the results were discussed.

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2018 IEEE 8th International Conference on System Engineering and Technology (ICSET)

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