Image processing of airborne scanning laser altimetry data for improved river flood modelling

To ensure the accuracy of large-scale optical stereo image bundle block adjustment, it is necessary to provide well-distributed ground control points (GCPs) with high accuracy. However, it is difficult to acquire control points through field measurements outside the country. Considering the high planimetric accuracy of spaceborne synthetic aperture radar (SAR) images and the high elevation accuracy of satellite-based laser altimetry data, this paper proposes an adjustment method that combines both as control sources, which can be independent from GCPs. Firstly, the SAR digital orthophoto map (DOM)-based planar control points (PCPs) acquisition is realized by multimodal matching, then the laser altimetry data are filtered to obtain laser altimetry points (LAPs), and finally the optical stereo images’ combined adjustment is conducted. The experimental results of Ziyuan-3 (ZY-3) images prove that this method can achieve an accuracy of 7 m in plane and 3 m in elevation after adjustment without relying on GCPs, which lays the technical foundation for a global-scale satellite image process.

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A Comparison and Review of Surface Detection Methods Using MBL, MABEL, and ICESat-2 Photon-Counting Laser Altimetry Data

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing ◽

10.1109/jstars.2021.3094195 ◽

2021 ◽

pp. 1-1

Author(s):

Huan Xie ◽

Qi Xu ◽

Dan Ye ◽

Jianghao Jia ◽

Yuan Sun ◽

...

Keyword(s):

Photon Counting ◽

Detection Methods ◽

Altimetry Data ◽

Laser Altimetry ◽

Surface Detection

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POINTING ANGLE CALIBRATION OF ZY3-02 SATELLITE LASER ALTIMETER USING TERRAIN MATCHING

ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences ◽

10.5194/isprs-archives-xlii-1-w1-205-2017 ◽

2017 ◽

Vol XLII-1/W1 ◽

pp. 205-210 ◽

Cited By ~ 1

Author(s):

G. Li ◽

X. Tang ◽

X. Gao ◽

J. P. Huang ◽

J. Chen ◽

...

Keyword(s):

Altimetry Data ◽

Laser Altimetry ◽

Angle Error ◽

Laser Altimeter ◽

Geometric Calibration ◽

Pointing Error ◽

The Public ◽

Ice Cloud ◽

Laser Data ◽

Terrain Matching

After GLAS (Geo-science Laser Altimeter System) loaded on the ICESat (Ice Cloud and land Elevation Satellite), satellite laser altimeter attracts more and more attention. ZY3-02 equipped with the Chinese first satellite laser altimeter has been successfully launched on 30<sup>th</sup> May, 2016. The geometric calibration is an important step for the laser data processing and application. The method to calculate the laser pointing angle error based on existed reference terrain data is proposed in this paper. The public version terrain data, such as 90m-SRTM and 30m-AW3D30, can be used to estimate the pointing angle of laser altimeter. The GLAS data with simulated pointing error and actual ZY3-02 laser altimetry data is experimented to validate the algorithm. The conclusion will be useful for the future domestic satellite laser altimeter.

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Supplementary material to "Assessment of NASA airborne laser altimetry data using groundbased GPS data near Summit Station, Greenland"

10.5194/tc-2016-214-supplement ◽

2016 ◽

Author(s):

Kelly M. Brunt ◽

Robert L. Hawley ◽

Eric R. Lutz ◽

Michael Studinger ◽

John G. Sonntag ◽

...

Keyword(s):

Gps Data ◽

Altimetry Data ◽

Laser Altimetry ◽

Airborne Laser ◽

Supplementary Material

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ZY-3 Block adjustment supported by glas laser altimetry data

The Photogrammetric Record ◽

10.1111/phor.12138 ◽

2016 ◽

Vol 31 (153) ◽

pp. 88-107 ◽

Cited By ~ 8

Author(s):

Guoyuan Li ◽

Xinming Tang ◽

Xiaoming Gao ◽

Huabin Wang ◽

Yu Wang

Keyword(s):

Altimetry Data ◽

Laser Altimetry

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Airborne measurement of glacier surface elevation by scanning laser altimeter

Annals of Glaciology ◽

10.3189/s0260305500012337 ◽

1997 ◽

Vol 24 ◽

pp. 293-296 ◽

Cited By ~ 7

Author(s):

Michael Kennett ◽

Trond Eiken

Keyword(s):

Remote Sensing ◽

Laser Scanning ◽

Laser System ◽

Scanning Laser ◽

Noise Levels ◽

Laser Altimetry ◽

Laser Altimeter ◽

Glacier Surface ◽

Airborne Measurement ◽

Dimensional Distribution

Airborne scanning laser altimetry is a relatively new technique for remote sensing of ground elevation. A laser ranger is scanned across a swath beneath the aircraft, producing a two-dimensional distribution of elevations when combined with data on aircraft position and orientation. Smooth snow-covered glaciers are ideal surfaces for laser scanning since they are highly reflective. A new prototype laser system is described together with results from Hardangerjökulen, Norway. An analysis of the data shows that noise levels are very low at around 2 cm, and that repeatability between overlapping swaths is approximately ± 10 cm. This is consistent with an absolute accuracy of 15 cm or better from manufacturer’s and other measurements. Swath widths of over 1 km are attainable, at lowing complete coverage of small to medium-sized glaciers using parallel flight tracks. The high accuracy and dense, even coverage (about 20 000 points per km2) gives good-quality derived products such as DEMs and enables reliable measurement of glacier volume change. Scanning laser altimetry has many advantages over photogrammetry, which was previously the only remote-sensing method of measuring elevations over large areas but which performs poorly over snow-covered glaciers.

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