From Global Laser Point Cloud Acquisition to 3D Digital Geospatial Framework: The Advanced Road of Global Accurate Mapping

Yong Fang; Hui Gong; Li Zhang; Haiyan Hu

doi:10.3788/LOP202259.1200002

[1] Li D R. From geomatics to geospatial intelligent service science[J]. Acta Geodaetica et Cartographica Sinica, 46, 1207-1212(2017).

[2] Virtanen J P, Kukko A, Kaartinen H et al. Nationwide point cloud: the future topographic core data[J]. ISPRS International Journal of Geo-Information, 6, 243(2017).

[3] Li R, Wang C, Su G Z et al. Development and applications of spaceborne LiDAR[J]. Science & Technology Review, 25, 58-63(2007).

[4] Fang Y, Cao B C, Gao L et al. Development and application of lidar mapping satellite[J]. Infrared and Laser Engineering, 49, 20201044(2020).

[5] Zhu X X, Wang C, Xi X H et al. Research progress of ICESat-2/ATLAS data processing and applications[J]. Infrared and Laser Engineering, 49, 20200259(2020).

[6] He Y. Study on lunar topography surveying and mapping based on lunar CCD imagery and laser altimeter data[D](2012).

[7] Fang Y. Research and practice of spaceborne SAR image spatial information extraction technology[D](2001).

[8] Chen G D, Wang P, Zhao W. Accuracy estimation of ICESat altimetry over ice sheet based on crossover differences[J]. Journal of Geomatics Science and Technology, 35, 226-230(2018).

[9] Hu G J, Fang Y, Zhang L. Development of spaceborne lidar and analysis of surveying and mapping application prospect[J]. Geomatics Technology and Equipment, 17, 34-37(2015).

[10] Chen B H, Zhu Q, Hu H. ZY-3 global DEM accuracy evaluation method based on GLAS laser altimetry data[J]. Geomatics World, 26, 70-73(2019).

[11] Wei Z Q. Pay attention to ICESat[M]. Proceedings on the progress of geodesy and geodynamics(2004).

[12] Li G Y, Tang X M, Zhang C Y et al. Multi-criteria constraint algorithm for selecting ICESat/GLAS data as elevation control points[J]. Journal of Remote Sensing, 21, 96-104(2017).

[13] Wang J, Zhang Y, Zhang Z X et al. ICESat laser points assisted block adjustment for mapping satellite-1 stereo imagery[J]. Acta Geodaetica et Cartographica Sinica, 47, 359-369(2018).

[14] Zhang Z X, Tao P J. An overview on “cloud control” photogrammetry in big data era[J]. Acta Geodaetica et Cartographica Sinica, 46, 1238-1248(2017).

[15] Tang X M, Xie J F, Mo F et al. GF-7 dual-beam laser altimeter on-orbit geometric calibration and test verification[J]. Acta Geodaetica et Cartographica Sinica, 50, 384-395(2021).

[16] Leigh H W, Magruder L A, Carabajal C C et al. Development of onboard digital elevation and relief databases for ICESat-2[J]. IEEE Transactions on Geoscience and Remote Sensing, 53, 2011-2020(2015).

[17] Gong P, Huang H B. Prospect of the application of LiDAR technology for topographical mapping in China[J]. Geomatics World, 6, 45-48(2008).

[18] Cao B C, Fang Y, Gao L et al. Verification of ICESat-2/ATLAS laser altimetry data accuracy using airborne point cloud[J]. Journal of Geomatics Science and Technology, 37, 50-55(2020).

[19] Li Z H, Li P, Ding D et al. Research progress of global high resolution digital elevation models[J]. Geomatics and Information Science of Wuhan University, 43, 1927-1942(2018).

[20] Shan J, Deng F, Tao P J[M]. Crowdsource image photogrammetry(2019).

[21] Hu H, Ding Y L, Zhu Q et al. Precision global DEM generation based on adaptive surface filter and Poisson terrain editing[J]. Acta Geodaetica et Cartographica Sinica, 48, 374-383(2019).

[22] Ma Y. The data processing and error analysis for satellite laser altimeter[D](2013).

[23] Li S, Xiao J M, Ma Y et al. Study on atmospheric refraction delay correction for satellite laser altimeter system[J]. Optics & Optoelectronic Technology, 11, 7-11(2013).

[24] Yi H, Li S, Ma Y et al. On-orbit calibration of satellite laser altimeters based on footprint detection[J]. Acta Physica Sinica, 66, 134206(2017).

[25] Li M. Research on technologies of photon counting lidar based on fiber optics[D](2017).

[26] Guo Y. Research on key technologies of photon counting 3D imaging lidar[D](2011).

[27] Cao B C, Fang Y, Jiang Z Z et al. Implementation and accuracy evaluation of ICESat-2 ATL08 denoising algorithms[J]. Bulletin of Surveying and Mapping, 25-30(2020).

[28] Neumann T A, Martino A J, Markus T et al. The ice, cloud, and land elevation Satellite-2 mission: a global geolocated photon product derived from the Advanced Topographic Laser Altimeter System[J]. Remote Sensing of Environment, 233, 111325(2019).

[29] Gao X M, Li G Y, Guo J Q et al. Discussion on the development of laser altimetry satellite for tri-polar regions observation[J]. Infrared and Laser Engineering, 49, 20200233(2020).

[30] Li X, Liao H, Zhao M L et al. Research on LiDAR surveying satellite detection capacity for different terrains[J]. Acta Geodaetica et Cartographica Sinica, 43, 1238-1244(2014).

[31] Du Q Y, Mai X M, Chu F X et al. Registration between unconventional aerial images and LiDAR data based on ICP[J]. Remote Sensing Information, 29, 16-20(2014).

[32] Cao B C, Fang Y, Jiang Z Z et al. Water depth measurement from the fusion of ICESat-2 laser satellite and optical remote sensing image[J]. Hydrographic Surveying and Charting, 40, 21-25(2020).

[33] He H, Wang Z M, Wen H F. Study on InSAR DEM inclination correction with ICESat satellite altimetry data[J]. Remote Sensing Information, 24, 85-88(2009).