基于LiDAR点云的复杂钢结构模型重建     

徐福斌  曲相屹  王健  刘秀涵 《测绘通报》2022,(5):170-173

传统的基于全站仪等单点测量技术难以获取钢结构整体信息,且测量速度慢、模型重建精度低。针对此问题,本文将三维激光扫描技术应用于钢结构模型重建领域,提出了基于LiDAR点云的复杂钢结构模型重建方法。首先,基于标靶球和钢结构面信息实现多测站点云的高精度配准,并通过半径滤波算法去除噪点,以得到完整的激光点云数据;然后,对复杂钢结构单体模型进行分割,以实现各个部件的模型重建;最后,根据现场实测数据对重建的三维模型进行精度评估。试验结果表明,基于该方法得到的模型精度较高,与实际尺寸差值均小于1 cm,为复杂钢结构的三维模型重建提供了有效解决方案。  相似文献   

机载LiDAR点云密度对DEM精度的影响     

王道杰  陈倍  孙健辉 《测绘通报》2022,(5):140-144+169

机载激光雷达技术(LiDAR)作为一项先进的遥感技术,是植被覆盖区DEM获取的重要手段之一,而不同地形坡度条件及点云密度对DEM产品质量有重要影响。本文以辽宁省某市的机载LiDAR数据为基础,选取5种不同地形坡度的点云数据,通过随机、等间距及基于曲率3种不同的点云抽稀方法,按照点云保留率为80%、60%、40%、20%和10%共5个不同梯度的抽稀倍数对原始点云进行抽稀简化处理,生成与之对应的DEM并对其进行精度评价,以此研究地形坡度、点云抽稀方法、抽稀倍数对DEM精度的影响。结果表明,DEM精度与地形坡度呈负相关关系,即RMSE随地形坡度升高不断增加;基于曲率的抽稀方法在地形坡度＞30°时,相较于其他两种方法RMSE较小,具有明显优势;40%的点云保留率是平衡DEM精度与数据存储效率的一个节点,当点云保留率<40%时,DEM的高程RMSE会迅速增大。该研究对于利用机载LiDAR进行大范围DEM生产具有一定的指导和借鉴意义。  相似文献   

OSM辅助车载LiDAR点云三维道路边界精细提取     

王艳军  林云浩  王书涵  李少春  王孟杰 《测绘通报》2022,(7):18-25

道路边界精确提取建模是城市道路管理、智能交通规划和高精度地图制作等领域的重要课题之一。本文提出了一种基于车载激光雷达点云数据和开源街道地图(OSM)的三维道路边界精确提取方法。首先,针对原始车载LiDAR点云数据应用布料模拟滤波分离地面点,再结合相对高程分析获取道路边界点候选数据集。然后,应用OSM矢量道路网数据的节点辅助道路边界点候选点集进行分段。最后,在各分段点云数据集中基于随机抽样一致性算法获得三维道路边界点集。通过直道、弯道及高密度复杂场景3种不同类型的城区道路边界路段分类提取试验。结果表明,利用该方法进行道路边界提取的准确率和召回率分别达96.12%和95.17%,F1值达92.11%,本文方法可用于高精度道路边界的三维精细提取与矢量化,进而为智能交通与无人驾驶导航提供支撑。  相似文献   

面向对象的精细化建模分析     

李佳俊 《测绘通报》2022,(12):1-6

本文首先利用像片与点云融合建模的技术方法,提出了面向对象的精细化建模思路,从数据采集、数据处理及模型生产3个阶段对某一景观小品进行了实践与探索。然后通过对比分析,得出不同类别传感器所获取的数据在模型成果中的优缺点。最后利用点云与像片融合建模的技术,解决了实景模型几何结构粗糙、纹理差的问题,为小尺度规划工作提供了可参考的基础数据。  相似文献   

云偏振遥感综述     

王宇瑶  麻金继  李婧晗  洪津  李正强 《遥感学报》2022,26(5):852-872

云是指停留在大气层中的水滴或冰晶胶体的集合体,也是地球上庞大水循环产生的有形结果,在全球气候中扮演着重要的角色。偏振遥感对光的辐射强度、方向、相位以及偏振状态等波谱特性进行描述,丰富了观测信息量,提升了观测信息的维度。为了更好地了解偏振遥感云的优势,本文对国际上发射的POLDER、APS、DPC等标志性的偏振传感器的特征和云反演算法进展进行了总结,涉及到相关偏振载荷参数信息、云参量算法的介绍和产品等相关内容,并就经典偏振云参量算法做了详细的总结和评价。随着国际上后续偏振传感器快速增加,对未来偏振传感器的发展方向和相关算法进行了展望。  相似文献   

基于逐点前进法的点云数据精简     

何宽  孙瑞  官云兰  曾晨曦 《测绘通报》2022,(9):167-169

本文在道格拉斯-普克法的基础上提出利用逐点前进法对点云数据进行精简,以兔子的模型为对象进行试验研究。结果表明,逐点前进法对点云数据精简在速度和精简率上与道格拉斯-普克法相比有明显提高。  相似文献   

Variability and Long-Term Trend of Total Cloud Cover in China Derived from ISCCP, ERA-40, CRU3, and Ground Station Datasets          下载免费PDF全文

ZONG Xue-Mei  WANG Pu-Cai  XIA Xiang-Ao 《大气和海洋科学快报》2013,6(3):133-137

Total Cloud Cover (TCC) over China determined from four climate datasets including the International Satellite Cloud Climatology Project (ISCCP), the 40-year Re-Analysis Project of the European Centre for Medium-Range Weather Forecasts (ERA-40), Climate Research Unit Time Series 3.0 (CRU3), and ground station datasets are used to show spatial and temporal variation of TCC and their differences. It is demonstrated that the four datasets show similar spatial pattern and seasonal variation. The maximum value is derived from ISCCP. TCC value in North China derived from ERA-40 is 50% larger than that from the station dataset; however, the value is 50% less than that in South China. The annual TCC of ISCCP, ERA-40, and ground station datasets shows a decreasing trend during 1984-2002; however, an increasing trend is derived from CRU3. The results of this study imply remarkable differences of TCC derived from surface and satellite observations as well as model simulations. The potential effects of these differences on cloud climatology and associated climatic issues should be carefully considered.  相似文献   

Intercomparison of Surface Radiative Fluxes in the Arctic Ocean          下载免费PDF全文

SHI Xiao-Xu  LIU Ji-Ping 《大气和海洋科学快报》2013,(6):434-439

Recent satellite data analysis has provided improved data sets relevant to the surface energy budget in the Arctic Ocean. In this paper, surface radiation properties in the Arctic Ocean obtained from the Surface Radiation Budget（SRB3.0） and the International Satellite Cloud Climatology Project（ISCCP-FD） during 1984– 2007 are analyzed and compared. Our analysis suggests that these datasets show encouraging agreement in basin-wide averaged seasonal cycle and spatial distribution of surface albedo; net surface shortwave and all-wave radiative fluxes; and shortwave, longwave, and all-wave cloud radiative forcings. However, a systematic large discrepancy is detected for the net surface longwave radiative flux between the two data sets at a magnitude of ~ 23 W m–2, which is primarily attributed to significant differences in surface temperature, particularly from April to June. Moreover, the largest difference in surface shortwave and all-wave cloud radiative forcings between the two data sets is apparent in early June at a magnitude of 30 W m–2.  相似文献   

Cloud Seedability Study with a Dual-Model System          下载免费PDF全文

JIN Ling  LEI Heng-Chi  KONG Fan-You  YANG Jie-Fan  HU Zhao-Xia 《大气和海洋科学快报》2013,(4):197-202

In this research,a novel dual-model system,one-dimensional stratiform cold cloud model(1DSC) coupled to Weather Research and Forecast(WRF) model(WRF-1DSC for short),was employed to investigate the effects of cloud seeding by silver iodide(AgI) on rain enhancement.Driven by changing environmental conditions extracted from the WRF model,WRF-1DSC could be used to assess the cloud seeding effects quantitatively.The employment of WRF-1DSC,in place of a one-dimensional two-moment cloud seeding model applied to a three-dimensional mesoscale cloud-resolving model,was found to result in massive reduction of computational resources.Numerical experiments with WRF-1DSC were conducted for a real stratiform precipitation event observed on 4-5 July 2004,in Northeast China.A good agreement between the observed and modeled cloud system ensured the ability of WRF-1DSC to simulate the observed precipitation process efficiently.Sensitivity tests were performed with different seeding times,locations,and amounts.Experimental results showed that the optimum seeding effect(defined as the percentage of rain enhancement or rain enhancement rate) could be achieved through proper seeding at locations of maximum cloud water content when the updraft was strong.The optimum seeding effect was found to increase by 5.61% when the cloud was seeded at 5.5 km above ground level around 2300 UTC 4 July 2004,with the maximum AgI mixing ratio(X s) equaling 15 ng kg 1.On the other hand,for an overseeded cloud,a significant reduction occurred in the accumulated precipitation(-12.42%) as X s reached 100 ng kg 1.This study demonstrates the potential of WRF1DSC in determining the optimal AgI seeding strategy in practical operations of precipitation enhancement.  相似文献   

飞机增雨作业物理检验方法探究及个例分析   总被引：2，自引：0，他引：2  

刘晴  姚展予 《气象》2013,39(10):1359-1368

人工增雨效果的物理检验为评估人工影响天气的效果提供物理依据,因此越来越受到关注,文章根据2009年5月1日在河北张家口的一次积层混合云降水过程的飞机人工增雨作业探测资料,尝试了从不同高度上寻找对比区,来进行作业效果的物理检验。结果表明：利用反证法思路,发现温度在-10℃时,FSSP 100ER量程1（测量范围为2~47 μm）测量的云粒子中并不全是液相的,也有一定量冰相云粒子存在;而且不同高度粒子浓度急速增大的时刻与冰相云粒子陡增的时刻是趋于一致的,观测的实际结果基本符合冷云催化原理;降雨区域面积是扩大的,某种程度上讲,作业收到了一定的效果。  相似文献