OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

电网技术 2014

基于无人机激光扫描的输电通道安全距离诊断技术

DOI: 10.13335/j.1000-3673.pst.2014.11.048, PP. 3254-3259

彭向阳,陈驰,徐晓刚,徐文学,王柯,杨必胜,麦晓明

Keywords: 无人机,机载激光扫描,输电线路走廊,安全距离,智能诊断

Full-Text Cite this paper Add to My Lib

Abstract:

结合输电线路巡线和维护的需求,提出了利用机载激光扫描数据诊断输电线路安全距离的方法。该方法首先采用顾及地形起伏特征的点云自动滤波方法分离地面点和非地面点,利用维数特征对非地面点进行初分类,并根据投影点密度获取杆塔点。然后采用二维霍夫变换以及分块质心解算方法获取输电线的三维节点,采用区域生长方法获取建筑物目标,根据植被的最高点以及边缘点获取植被目标。从而可以量测出输电线与其周围物体之间的距离,进而根据距离的大小对输电线路及其周围环境高程信息进行诊断。采用有人、无人机载激光数据对算法进行验证,实验结果表明了文中方法的有效性和精确性。该诊断机制可以判别线路附近的建筑物或植被等目标是否已达到危险的高度或位置,以便及时修剪或清除,确保线路运行安全。

References

[1]	穆超．基于多种遥感数据的电力线走廊特征物提取方法研究[D]．武汉：武汉大学,2010．
[2]	Li Q,Li B,Chen J．Research on laser range scanning and its application[J]．Geo-spatial Information Science,2001,4(1)：37-42．
[3]	黄先锋．利用机载LIDAR数据重建3D建筑物模型的关键技术研究[D]．武汉：武汉大学,2006．
[4]	徐文学,杨必胜,魏征,等．多标记点过程的LiDAR点云数据建筑物和树冠提取[J]．测绘学报,2013,42(1)：51-58． Xu Wenxue,Yang Bisheng,Wei Zheng,et al．Building and tree crown extraction from LiDAR point cloud data based on multi-marked point process[J]．Acta Geodaetica et Cartographica Sinica,2013,42(1)：51-58(in Chinese)．
[5]	Yang B S,Xu W X,Dong Z．Automated extraction of building outlines from airborne laser scanning point clouds[J]．IEEE Geoscience and Remote Sensing Letters,2013,10(6)：1399-1403．
[6]	阳锋,徐祖舰．三维激光雷达技术在输电线路运行与维护的应用[J]．南方电网技术,2009,3(2)：62-64． Yang Feng,Xu Zujian．Application of the LIDAR technology on operation and maintenance of power transmission lines[J]．Southern Power System Technology,2009,3(2)：62-64(in Chinese)．
[7]	张吴明,杨又华,阎广建,等．机载多角度多光谱成像技术在电力系统中的应用[J]．华中电力,2006,19(6)：1-2． Zhang Wuming,Yang Youhua,Yan Guangjian,et al．Application of airborne multiangular and multispectral imaging system in power system[J]．Central China Electric Power,2006,19(6)：1-2(in Chinese)．
[8]	陈斯雅,王滨海,盛戈皞,等．采用图像摄影的输电线路弧垂测量方法[J]．高压电技术,2011,37(4)：904-909． Chen Siya,Wang Binhai,Sheng Gehao,et al．Application of digital image processing and photogrammetric technology to sag measuring method [J]．High Voltage Engineering,2011,37(4)：904-909(in Chinese)．
[9]	Franken P．Transmission line monitoring through airborne modeling[EB/OL]．[2014-05-18]．http://www.fli-map.nl/downloads/
[10]	downsload-articles/Transmission_Line_monitoring．
[11]	蓝增荣,胡庆武,隆华平．基于机载LiDAR的数字电网巡线应用研究[J]．大众科技,2013(1)：57-59． Lan Zengrong,Hu Qingwu,Long Huaping．Research on digital power line inspection based on airbore LiDAR[J]．Popular Science & Technology,2013(1)：57-59(in Chinese)．
[12]	Kraus K,Pfeifer N．Determination of terrain models in wooded areas with airborne laser scanner data[J]．ISPRS Journal of Photogrammetry and Remote Sensing,1998,53(4)：193-203．
[13]	Vosselman G．Slope based filtering of laser altimetry data[C]//International Archives of Photogrammetry and Remote Sensing,2000,XXXIII(B3)：935-942．
[14]	唐涛．顾及地形起伏特征的机载激光点云自动滤波方法[D]．武汉：武汉大学,2013．
[15]	杨必胜,董震,魏征,等．从车载激光扫描数据中提取复杂建筑物立面的方法[J]．测绘学报,2013,42(3)：411-417． Yang Bisheng,Dong Zhen,Wei Zheng,et al．Extracting complex building facades from mobile laser scanning data[J]．Acta Geodaetica et Cartographica Sinica,2013,42(3)：411-417(in Chinese)．
[16]	Lalonde J F,Vandapel N,Huber D F,et al．Natural terrain classification using three-dimensional LADAR data for ground robot mobility[J]．Journal of Field Robotics,2006,23(10)：839-861．
[17]	叶岚,刘倩,胡庆武．基于LIDAR点云数据的电力线提取和拟合方法研究[J]．测绘与空间地理信息,2010,33(5)：30-34． Ye Lan,Liu Qian,Hu Qingwu．Research of power line fitting and extraction techniques based on LIDAR point cloud data[J]．Geomatics & Spatial Information Technology,2010,33(5)：30-34(in Chinese)．
[18]	刘怀东,陈伟,高晓辉,等．从大停电观点分析一类输电线路树闪故障[J]．电网技术,2007,33(增1)：67-69． Liu Huaidong,Chen Wei,Gao Xiaohui,et al．Analysis of vegetation-related failures on transmission lines from the viewpoint of blackouts[J]．Power System Technology,2007,33(S1)：67-69(in Chinese)．
[19]	陈伟．从大停电观点分析输电线路数闪故障机连锁故障[D]．天津：天津大学,2007．
[20]	Guo T,Yasuoka Y．Combining high resolution satellite imagery and airborne laser scanning data for generating bareland and DEM in urban areas[C]//International Archives of the Photogrammetry,Remote Sensing and Spatial Information Sciences,2002,XXX IV:5/W3：30-33．
[21]	Alharthy A,Bethel B．Heuristic filtering and 3D feature extraction from Lidar Data[C]//International Archives of Photogrammetry Remote Sensing and Spatial Information Sciences,Graz,Austria,2002, XXIV,3：212-223．
[22]	Zhou Q Y,Neumann U．Fast and extensible building modeling from airborne LIDAR data[C]//16 th ACM SIGSPATIAL International Symposium on Advances in Geographic Information Systems,ACM-GIS,Irvine,California,USA．2008：7-11．

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133