机载LiDAR中工作参数的控制误差和测量误差对点云产品精度的影响机理及其比较
王建军, 李小路, 许同乐, 李东兴, 霍文骁. 机载LiDAR中工作参数的控制误差和测量误差对点云产品精度的影响机理及其比较[J]. 中国激光, 2015, 42(7): 0708003.
Wang Jianjun, Li Xiaolu, Xu Tongle, Li Dongxing, Huo Wenxiao. Comparison of Impacts of Control Errors and Measurement Errors of Working Parameters on Accuracies of Point Cloud Products from Airborne LiDAR[J]. Chinese Journal of Lasers, 2015, 42(7): 0708003.
[1] Wehr A, Lohr U. Airborne laser scanning-an introduction and overview[J]. ISPRS Journal of Photogrammetry & Remote Sensing, 1999, 54(2-3): 68-82.
[2] Wang Jianjun, Xu Lijun, Li Xiaolu. Impacts of random attitude measurement errors on airborne laser scanning image[J]. Chinese J Lasers, 2011, 38(3): 0314001.
[4] Krabill W B, Abdalati W, Frederick E B, et al.. Aircraft laser altimetry measurement of elevation changes of the Greenland ice sheet: technique and accuracy assessment[J]. Journal of Geodynamics, 2002, 34(3): 357-376.
[5] Wang J J, Xu L J, Li X L, et al.. Impact analysis of random measurement errors on airborne laser scanning accuracy[C]. 2011 IEEE International Instrumentation and Measurement Technology Conference, 2011: 1083-1086.
[6] Schenk T. Modeling and recovering systematic errors in airborne laser scanners[C]. Proceedings of the OEEPE Workshop on Airborne Laser Scanning and Interferometric SAR for Detailed Digital Elevation Models, 2001: 40-48.
[7] Camillo Ressl, Gottfried Mandlburger, Norbert Pfeifer. Investigating adjustment of airborne laser scanning strips without usage of GNSS/IMU trajectory data[C]. Vosselman G (Eds) Laser Scanning 2009, IAPRS, 2009, XXXVIII(3/W8): 195-200.
[8] Ayman Habib, Ana Paula Kersting, Ki In Bang, et al.. Alternative methodologies for the internal quality control of parallel LiDAR strips[J]. IEEE Trans Geosci Remote Sensing, 2010, 48(1): 221-236.
[9] Glennie C. Rigorous 3D error analysis of kinematic scanning lidar systems[J]. Journal of Applied Geodesy, 2007, 1(3): 147-157.
[10] Baltsavias E P. A comparison between photogrammetry and laser scanning[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 1999, 54(2-3): 83-94.
[11] Nahum Gat. General Line of Sight Stabilization System[P]. US: 7466343B2, [2008-12-16].
[12] Shu Nin. Laser Imaging[M]. Wuhan: Wuhan University Press, 2005: 41-48, 93-94.
[13] Jiang Yuesong. A rigorous positioning equation and it′s error analysis and precision evaluation for integrated positioning system of airborne GPS, INS and laser scanning ranging[J]. Journal of Remote Sensing, 2001, 5(4): 241-247.
[14] Li Shukai, Xue Yongqi. The Integrated Technology System of High Efficiency Three-Dimensional Remote Sensing[M]. Beijing: Science Press, 2000: 96-97.
[15] Barber C B, Dobkin D P, Huhdanpaa H. The quickhull algorithm for convex hulls [J]. ACM Transactions on Mathematical Software, 1996, 22(4): 469-483.
[16] Su J, Bork E. Influence of vegetation, slope, and lidar sampling angle on DEM accuracy[J]. Photogrammetric Engineering & Remote Sensing, 2006, 72(11): 1265-1274.
[17] Wang J G, Wang J L, Barnes J, et al.. Flight test of a GPS/INS/Pseudolite integrated system for airborne mapping[C]. Spatial Sciences Conference, 2007: 108-118.
[18] Wang Jianjun, Liu Jidong. Analysis and sorting of impacts of measurement errors on positioning accuracy of laser point cloud obtained from ALS[J]. Chinese J Lasers, 2014, 41 (4): 0414001.
王建军, 李小路, 许同乐, 李东兴, 霍文骁. 机载LiDAR中工作参数的控制误差和测量误差对点云产品精度的影响机理及其比较[J]. 中国激光, 2015, 42(7): 0708003. Wang Jianjun, Li Xiaolu, Xu Tongle, Li Dongxing, Huo Wenxiao. Comparison of Impacts of Control Errors and Measurement Errors of Working Parameters on Accuracies of Point Cloud Products from Airborne LiDAR[J]. Chinese Journal of Lasers, 2015, 42(7): 0708003.