机载LiDAR技术在铁路横断面中的应用研究
摘要
机载激光雷达(LiDAR)测量技术作为一种新兴的空间测量技术,能够快速、高效地获得空间三维地理信息数据,引起了测绘等相关行业的浓厚兴趣。在我国,铁路建设事业飞速发展,特别是高标准的高速铁路和客运专线正在加紧建设,而铁路勘测一直面临勘测周期短、任务重、地形复杂等难题。机载LiDAR技术能够快速地获取大范围、大批量的高精度三维地理信息,很大程度上满足了铁路行业对三维数据的需求,在铁路行业得到广泛应用。相比传统的测量手段,基于机载LiDAR数据生成DEM,进而提取铁路横断面的方法,能够更加快速地提取大批量铁路横断面,具有更加明显的优势。
本文结合机载LiDAR项目分析其在铁路横断面提取中的应用,主要内容如下:
从机载LiDAR系统硬件的发展、软件的开发以及机载LiDAR点云滤波算法方面系统地介绍了机载LiDAR技术的国内外研究现状,分析了传统的测量技术在铁路行业提取横断面的方法。另外,文章还比较系统地介绍了机载LiDAR系统的组成和工作原理,进而分析了其数据特点及技术优势。
文章着重研究了机载LiDAR技术在铁路横断面提取方面的工作原理及技术路线,通过实验进行了基于机载LiDAR数据提取铁路横断面的精度分析及可行性研究;本文对机载LiDAR点云滤波进行了详细地讨论,介绍了近些年来业界比较主流的点云滤波算法,并对这些算法各自的特点进行了分析。
最后,鉴于机载LiDAR滤波时阈值的选择对滤波结果的影响,作者还进行了滤波阈值选择的实验,分析了迭代角度和迭代距离对不同地形等级和不同植被覆盖情况的影响。
As a new technology of space measurement, airborne Light Detection AndRanging(LiDAR) can obtain three-dimensional GIS data quickly and efficiently,which has caused surveying and mapping,and other related industries much interest.In China, the railway construction is developing rapidly. Especially,high standardHigh-speed Rail and Passenger Line are under construction. However,railway surveyhas been facing some problems, such as short surveying period、heavy task、complexterrain,and so on. Airborne LiDAR technology can quickly obtain a wide range andlarge quantities of precious three-dimensional geographic information,which cangreatly meet the demand of data for railway construction,that is why airborne LiDARis widely used in railway industry. Compared to traditional means of measurement,this way which is based on airborne LiDAR data to generate DEM,then to extractrailway profile-sections has much more advantages,because it can extract quantitiesof railway profile-sections efficiently.
In this paper,the author combined with the project of LiDAR to analyze itsapplication in railway profile-sections extraction.The main content is as follows:
For the first,this paper systematically introduces the research status of airborneLiDAR technology from hardware and software development,as well as point cloudsfiltering algorithms. It also analyzes how does traditional measuring techniquesextract profile-sections in railway. In addition, the paper also makes a systematicintroduction on the airborne LiDAR system composition and working principle, andthen analyzes its data characteristics and technical advantages.
This paper studies the airborne LiDAR technique in railway profile-sectionsextraction in the working principle and technical route,and makes precision analysisof the railway profile-sections and feasibility studies through experiment based onLiDAR data. The airborne LiDAR point clouds filtering is discussed in detail.However,the mainstream filtering algorithms and their characteristics are analyzed.
Finally,in view of the influence of different filtering thresholds,the author alsocarry an experiment of filtering thresholds selection to analyze the influence of iterative angle and iterative distance on different terrain levels and different coveragesof vegetables.
本文结合机载LiDAR项目分析其在铁路横断面提取中的应用,主要内容如下:
从机载LiDAR系统硬件的发展、软件的开发以及机载LiDAR点云滤波算法方面系统地介绍了机载LiDAR技术的国内外研究现状,分析了传统的测量技术在铁路行业提取横断面的方法。另外,文章还比较系统地介绍了机载LiDAR系统的组成和工作原理,进而分析了其数据特点及技术优势。
文章着重研究了机载LiDAR技术在铁路横断面提取方面的工作原理及技术路线,通过实验进行了基于机载LiDAR数据提取铁路横断面的精度分析及可行性研究;本文对机载LiDAR点云滤波进行了详细地讨论,介绍了近些年来业界比较主流的点云滤波算法,并对这些算法各自的特点进行了分析。
最后,鉴于机载LiDAR滤波时阈值的选择对滤波结果的影响,作者还进行了滤波阈值选择的实验,分析了迭代角度和迭代距离对不同地形等级和不同植被覆盖情况的影响。
As a new technology of space measurement, airborne Light Detection AndRanging(LiDAR) can obtain three-dimensional GIS data quickly and efficiently,which has caused surveying and mapping,and other related industries much interest.In China, the railway construction is developing rapidly. Especially,high standardHigh-speed Rail and Passenger Line are under construction. However,railway surveyhas been facing some problems, such as short surveying period、heavy task、complexterrain,and so on. Airborne LiDAR technology can quickly obtain a wide range andlarge quantities of precious three-dimensional geographic information,which cangreatly meet the demand of data for railway construction,that is why airborne LiDARis widely used in railway industry. Compared to traditional means of measurement,this way which is based on airborne LiDAR data to generate DEM,then to extractrailway profile-sections has much more advantages,because it can extract quantitiesof railway profile-sections efficiently.
In this paper,the author combined with the project of LiDAR to analyze itsapplication in railway profile-sections extraction.The main content is as follows:
For the first,this paper systematically introduces the research status of airborneLiDAR technology from hardware and software development,as well as point cloudsfiltering algorithms. It also analyzes how does traditional measuring techniquesextract profile-sections in railway. In addition, the paper also makes a systematicintroduction on the airborne LiDAR system composition and working principle, andthen analyzes its data characteristics and technical advantages.
This paper studies the airborne LiDAR technique in railway profile-sectionsextraction in the working principle and technical route,and makes precision analysisof the railway profile-sections and feasibility studies through experiment based onLiDAR data. The airborne LiDAR point clouds filtering is discussed in detail.However,the mainstream filtering algorithms and their characteristics are analyzed.
Finally,in view of the influence of different filtering thresholds,the author alsocarry an experiment of filtering thresholds selection to analyze the influence of iterative angle and iterative distance on different terrain levels and different coveragesof vegetables.
引文
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[2] Axelsson P.DEM Generation from Laser Scanner Data Using Adaptive TINModels[J].International Archives of Photogrammetry and Remote Sensing,2000,33(B4):110-117.
[3] Baltsavias E P.A Comparison Between Photogrammetry and Laser Scanning.ISPRSJournal of Photogrammetry and Remote Sensing.1999,54(2/3).
[4] Flood M.LIDAR Activities and Research Priorities the CommercialSector[J].IAPRS,2001,34(3/W4):3-7.
[5] Kilian J, Haala N, Englich M.Capture and Evaluation of Airborne Laser ScannerData [J].IAPRS,1996,31(B3):383–388.
[6] Kraus K, Pfeifer N. Determination of Terrain Models in Wooded Areas withAirborne Laser Scanner Data [J]. ISPRS JPRS,1998,53(4):193–203.
[7] Kraus K,Rieger W.Processing of Laser Scanning Data for Wooded Areas
[C]. ISPRS Journal of Photogrammetry and Remote Sensing, Photogrammetric Week99,Wichmann Verlag, Heidelberg,1999.
[8] Lindenberger J. Laser-Profilmenssungen zur topographischenGelandeaufnahme[D].Stuttgart:University Stuttgart,1993.
[9] Means J E,Acker S A,Harding D J.Use of Large-footprint Scanning AirborneLIDAR to Estimate Forest Stand Characteristics in the Western Cascades ofOregon[J].Remote Sensing of Environment,1999,67(3):298-308.
[10] Nilsson M.Estimation of Tree Heights and Stand Volume Using an AirborneLIDAR Systems[J].Remote Sensing of Environment,1996,56(1):1-7.
[11] Nelson R,Oderwald R,Gregoire T G.Separating the Ground and Airborne LaserSampling Phases to Estimate Tropical Forest Basal Area,Volume,and Biomass[J].RemoteSensing of Environment,1997,60(3):311-326.
[12] Vosselman G.Slope Based Filtering of Laser Altimetry Data[J].InternationalArchives of Photogrammetry and Remote Sensing,2000,33(B3):935-942.
[13] Vosselman G,Maas H G.Adjustment and Filtering of Raw Laser AltimetryData[C].OEEPE Workshop on Airborne Laser Scanning and Interferometric SAR forDetailed Digital Elevation Model,Stochkholm,2001.
[14]戴娅琼,申旭辉,洪顺英.机载LiDAR技术及其在地学中的应用[J].地震,2009,(29):122-128.
[15]郭胜利.纵横断面图绘制的新方法[J].测绘工程,2009,18(3):77-80.
[16]韩祖杰,张弛,赖旭东.用于铁路勘察的机载LiDAR数据生产DEM方法研究[J].遥感应用,2011,(3):61-66.
[17]韩改新.机载激光雷达(LIDAR)技术在铁路中勘测设计中的应用探讨[J].铁道勘察,2008,(3):1-3.
[18]胡堃.基于机载LIDAR技术快速获取高精度DEM的研究[J].高新技术,2009,(7):19-21.
[19]胡琪,胡维刚,邓非,等.机载LiDAR和光学影像制作正射影像的方法[J].地理空间信息,2011,9(3):142-144.
[20]何宝根.内外业一体化横断面测绘系统在工程中的应用[J].人民珠江,2003,(2):10.
[21]黄励鑫,王丽园.机载激光雷达技术在困难复杂地区公路勘察设计中的应用[J].交通科技,2009,(1):59-61.
[22]贾晓林,吴立新,王彦兵.二维Delaunay三角网局部更新:点插入与点删除[J].地理与地理信息科学,2004,20(5):28-31.
[23]景钦刚.机载三维激光扫描系统在线路工程中的应用研究[J].电力建设,2009,30(3):35-37.
[24]李明,孙明英,刘枫彩,等.全站仪快速断面测绘系统及其应用[J].人民黄河,2001,23(2):24-25.
[25]李艳玲,杜殿斌,刘丽茹.激光雷达技术在城市三维建筑模型中的应用[J].测绘,2010,33(1):42-44.
[26]李峰,郑雄伟,王和平.机载LiDAR系统在大比例尺地形图中的应用[J].遥感应用,2009,(6):20-24.
[27]李树楷,薛永祺.高效三维遥感集成技术系统[M].北京:科学出版社,2000.
[28]林华,邓建.线路纵横断面测量一种新方法的探讨[J].安徽地质,2009,19(2):146-148.
[29]刘庆金.无中桩线路横断面测绘法[J].测绘通报,2007,(11):40-42.
[30]刘艳丰,王守彬,汤仲安,等.基于k-d树的机载LIDAR点云滤波处理[J].测绘工程,2009,18(5):59-62.
[31]隆华平,兰增荣.基于机载LiDAR数据的电力线提取[J].大众科技,2011,(6):110-111.
[32]彭勇刚,曹必正.工程隧洞断面测绘的一种改进方法[J].西北水电,2006,(2):12-13.
[33]潘燕芳,朱长富.纵横断面数字测绘系统的开发与应用[C].广东省测绘学会第八次会员代表大会学术交流论文集:9-12.
[34]苏群生,张绍敏.堤防断面测绘方法的改进[J].科技信息,2009,(27):33-34.
[35]苏锦程,吴金乡,方利伟.断面测绘方法的改进[J].中国西部科技,2008,7(25):12-13.
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