Radiometric Calibration of Laser Scanners, LIDAR

Chapter Contents (Back)
See also Calibration -- Lidar, Laser Scanner, Depth Sensor, Scanner Error Analysis.
See also Radiometric Calibration of Remote Sensing, Satellite and Space Images.

Wagner, W.[Wolfgang], Ullrich, A.[Andreas], Ducic, V.[Vesna], Melzer, T.[Thomas], Studnicka, N.[Nick],
Gaussian decomposition and calibration of a novel small-footprint full-waveform digitising airborne laser scanner,
PandRS(60), No. 2, April 2006, pp. 100-112.
Elsevier DOI 0610
Laser scanning; Lidar; Digitisation; Calibration; Retrieval BibRef

Wagner, W., Hyyppä, J., Ullrich, A., Lehner, H., Briese, C., Kaasalainen, S.,
Radiometric Calibration of Full-Waveform Small-Footprint Airborne Laser Scanners,
ISPRS08(B1: 163 ff).
PDF File. 0807

Roncat, A.[Andreas], Lehner, H.[Hubert], Briese, C.[Christian],
Laser Pulse Variations And Their Influence On Radiometric Calibration Of Full-Waveform Laser Scanner Data,
DOI Link 1109

Wagner, W.[Wolfgang],
Radiometric calibration of small-footprint full-waveform airborne laser scanner measurements: Basic physical concepts,
PandRS(65), No. 6, November 2010, pp. 505-513.
Elsevier DOI 1101
Laser scanning; Lidar; Calibration; Cross section; Backscatter coefficient BibRef

Hofle, B.[Bernhard], Pfeifer, N.[Norbert],
Correction of laser scanning intensity data: Data and model-driven approaches,
PandRS(62), No. 6, December 2007, pp. 415-433.
Elsevier DOI 0711
Laser scanning; Signal intensity; Reflectance; Correction BibRef

Kaasalainen, S., Kukko, A., Lindroos, T., Litkey, P., Kaartinen, H., Hyyppa, J., Ahokas, E.,
Brightness Measurements and Calibration With Airborne and Terrestrial Laser Scanners,
GeoRS(46), No. 2, February 2008, pp. 528-534.

Kaasalainen, S., Krooks, A., Kukko, A., Kaartinen, H.,
Radiometric Calibration of Terrestrial Laser Scanners with External Reference Targets,
RS(1), No. 3, September 2009, pp. 144-158.
DOI Link 1203
Award, Remote Sensing, Best Paper. for 2009. BibRef

Kaasalainen, S., Hyyppä, J., Litkey, P., Hyyppä, H., Ahokas, E., Kukko, A., Kaartinen, H.,
Radiometric Calibration of ALS Intensity,
PDF File. 0709

Suomalainen, J.[Juha], Hakala, T.[Teemu], Kaartinen, H.[Harri], Räikkönen, E.[Esa], Kaasalainen, S.[Sanna],
Demonstration of a virtual active hyperspectral LiDAR in automated point cloud classification,
PandRS(66), No. 5, September 2011, pp. 637-641.
Elsevier DOI 1110
Hyperspectral; Supercontinuum; LiDAR; Point cloud classification; Spectral Correlation Mapper BibRef

Yan, W.Y.[Wai Yeung], Shaker, A.[Ahmed], Habib, A.[Ayman], Kersting, A.P.[Ana Paula],
Improving classification accuracy of airborne LiDAR intensity data by geometric calibration and radiometric correction,
PandRS(67), No. 1, January 2012, pp. 35-44.
Elsevier DOI 1202
LiDAR; Geometric calibration; Radiometric correction; Intensity data; Classification BibRef

Yan, W.Y.[Wai Yeung], Shaker, A.[Ahmed],
Airborne LiDAR intensity banding: Cause and solution,
PandRS(142), 2018, pp. 301-310.
Elsevier DOI 1807
Airborne LiDAR, Intensity banding, Oscillating mirror, Overlap factor, LiDAR scan line correction, Striping noise, Stripe artifacts BibRef

Yan, W.Y.[Wai Yeung], Shaker, A.[Ahmed],
Radiometric Correction and Normalization of Airborne LiDAR Intensity Data for Improving Land-Cover Classification,
GeoRS(52), No. 12, December 2014, pp. 7658-7673.
Radiometric calibration of airborne LiDAR intensity data for land cover classification,
PDF File. Unless it is:
PDF File. 1006
automatic gain control BibRef

Ding, Q.[Qiong], Chen, W.[Wu], King, B.[Bruce], Liu, Y.X.[Yan-Xiong], Liu, G.X.[Guo-Xiang],
Combination of overlap-driven adjustment and Phong model for LiDAR intensity correction,
PandRS(75), No. 1, January 2013, pp. 40-47.
Elsevier DOI 1301
Airborne laser scanning; Intensity; Least squares; Overlapping strips; Reflection BibRef

Fang, W.[Wei], Huang, X.F.[Xian-Feng], Zhang, F.[Fan], Li, D.R.[De-Ren],
Intensity Correction of Terrestrial Laser Scanning Data by Estimating Laser Transmission Function,
GeoRS(53), No. 2, February 2015, pp. 942-951.
data acquisition BibRef

Gastellu-Etchegorry, J.P.[Jean-Philippe], Yin, T.[Tiangang], Lauret, N.[Nicolas], Cajgfinger, T.[Thomas], Gregoire, T.[Tristan], Grau, E.[Eloi], Feret, J.B.[Jean-Baptiste], Lopes, M.[Maïlys], Guilleux, J.[Jordan], Dedieu, G.[Gérard], Malenovský, Z.[Zbynek], Cook, B.D.[Bruce Douglas], Morton, D.[Douglas], Rubio, J.[Jeremy], Durrieu, S.[Sylvie], Cazanave, G.[Gregory], Martin, E.[Emmanuel], Ristorcelli, T.[Thomas],
Discrete Anisotropic Radiative Transfer (DART 5) for Modeling Airborne and Satellite Spectroradiometer and LIDAR Acquisitions of Natural and Urban Landscapes,
RS(7), No. 2, 2015, pp. 1667-1701.
DOI Link 1503

Lin, Y.C.[Yu-Ching],
Normalization of Echo Features Derived from Full-Waveform Airborne Laser Scanning Data,
RS(7), No. 3, 2015, pp. 2731-2751.
DOI Link 1504
Lidar returns are not the same for all scans. BibRef

Teo, T.A.[Tee-Ann], Yu, H.L.[Hui-Lin],
Empirical Radiometric Normalization of Road Points from Terrestrial Mobile Lidar System,
RS(7), No. 5, 2015, pp. 6336-6357.
DOI Link 1506

Teo, T.A.[Tee-Ann], Wu, H.M.[Hsien-Ming],
Radiometric Block Adjustment for Multi-Strip Airborne Waveform Lidar Data,
RS(7), No. 12, 2015, pp. 15856.
DOI Link 1601

Hartzell, P.J., Glennie, C.L., Finnegan, D.C.,
Empirical Waveform Decomposition and Radiometric Calibration of a Terrestrial Full-Waveform Laser Scanner,
GeoRS(53), No. 1, January 2015, pp. 162-172.
calibration BibRef

Glennie, C.L., Kusari, A., Facchin, A.,
Calibration and Stability Analysis of the VLP-16 Laser Scanner,
DOI Link 1605

Carrea, D.[Dario], Abellan, A.[Antonio], Humair, F.[Florian], Matasci, B.[Battista], Derron, M.H.[Marc-Henri], Jaboyedoff, M.[Michel],
Correction of terrestrial LiDAR intensity channel using Oren-Nayar reflectance model: An application to lithological differentiation,
PandRS(113), No. 1, 2016, pp. 17-29.
Elsevier DOI 1602
Intensity BibRef

Tan, K.[Kai], Cheng, X.J.[Xiao-Jun],
Specular Reflection Effects Elimination in Terrestrial Laser Scanning Intensity Data Using Phong Model,
RS(9), No. 8, 2017, pp. xx-yy.
DOI Link 1708

Xu, T.[Teng], Xu, L.J.[Li-Jun], Yang, B.[Bingwei], Li, X.[Xiaolu], Yao, J.[Junen],
Terrestrial Laser Scanning Intensity Correction by Piecewise Fitting and Overlap-Driven Adjustment,
RS(9), No. 11, 2017, pp. xx-yy.
DOI Link 1712

Errington, A.F.C.[Angus F. C.], Daku, B.L.F.[Brian L. F.],
Temperature Compensation for Radiometric Correction of Terrestrial LiDAR Intensity Data,
RS(9), No. 4, 2017, pp. xx-yy.
DOI Link 1705

Bretagne, E.[Estelle], Dassonvalle, P.[Pascal], Caron, G.[Guillaume],
Spherical target-based calibration of terrestrial laser scanner intensity. Application to colour information computation,
PandRS(144), 2018, pp. 14-27.
Elsevier DOI 1809
Terrestrial laser scanning, Intensity, Incidence angle, Range, sRGB BibRef

Zhang, C.S.[Chang-Sai], Gao, S.[Shuai], Li, W.[Wang], Bi, K.[Kaiyi], Huang, N.[Ni], Niu, Z.[Zheng], Sun, G.[Gang],
Radiometric Calibration for Incidence Angle, Range and Sub-Footprint Effects on Hyperspectral LiDAR Backscatter Intensity,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009

Julin, A.[Arttu], Kurkela, M.[Matti], Rantanen, T.[Toni], Virtanen, J.P.[Juho-Pekka], Maksimainen, M.[Mikko], Kukko, A.[Antero], Kaartinen, H.[Harri], Vaaja, M.T.[Matti T.], Hyyppä, J.[Juha], Hyyppä, H.[Hannu],
Evaluating the Quality of TLS Point Cloud Colorization,
RS(12), No. 17, 2020, pp. xx-yy.
DOI Link 2009

Roth, B.D.[Benjamin D.], Goodenough, A.A.[Adam A.], Brown, S.D.[Scott D.], van Aardt, J.A.[Jan A.], Saunders, M.G.[M. Grady], Krause, K.[Keith],
Simulations of Leaf BSDF Effects on Lidar Waveforms,
RS(12), No. 18, 2020, pp. xx-yy.
DOI Link 2009

Liu, W., Sun, S., Li, Z., Ge, S., Sotelo, M.A., Li, W.,
Compensation of Geometric Parameter Errors for Terrestrial Laser Scanner by Integrating Intensity Correction,
GeoRS(58), No. 10, October 2020, pp. 7483-7495.
Error compensation, Measurement uncertainty, Systematics, Instruments, Measurement by laser beam, Calibration, terrestrial laser scanner (TLS) BibRef

Sanchiz-Viel, N.[Nathan], Bretagne, E.[Estelle], Mouaddib, E.[El_Mustapha], Dassonvalle, P.[Pascal],
Radiometric correction of laser scanning intensity data applied for terrestrial laser scanning,
PandRS(172), 2021, pp. 1-16.
Elsevier DOI 2101
LiDAR, TLS, Radiometric correction, Intensity, Reflectance BibRef

Wu, Q.[Qiong], Zhong, R.F.[Ruo-Fei], Dong, P.L.[Pin-Liang], Mo, Y.[You], Jin, Y.X.[Yun-Xiang],
Airborne LiDAR Intensity Correction Based on a New Method for Incidence Angle Correction for Improving Land-Cover Classification,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102

Shahpaski, M., Sapaico, L.R., Chevassus, G., Süsstrunk, S.,
Simultaneous Geometric and Radiometric Calibration of a Projector-Camera Pair,
Calibration, Cameras, Encoding, Image color analysis, Ink, Radiometry BibRef

Roncat, A., Briese, C., Pfeifer, N.,
A Comparison Of Lidar Reflectance And Radiometrically Calibrated Hyperspectral Imagery,
ISPRS16(B7: 705-710).
DOI Link 1610

Markiewicz, J., Podlasiak, P., Kowalczyk, M., Zawieska, D.,
The New Approach to Camera Calibration: GCPS or TLS Data?,
ISPRS16(B3: 75-82).
DOI Link 1610

Briese, C., Pfennigbauer, M., Ullrich, A., Doneus, M.,
Multi-Wavelength Airborne Laser Scanning for Archaeological Prospection,
HTML Version. 1311

Briese, C., Pfennigbauer, M., Lehner, H., Ullrich, A., Wagner, W., Pfeifer, N.,
Radiometric Calibration Of Multi-wavelength Airborne Laser Scanning Data,
AnnalsPRS(I-7), No. 2012, pp. 335-340.
HTML Version. 1209

Anttila, K.[Kati], Kaasalainen, S.[Sanna], Krooks, A.[Anssi], Kaartinen, H.[Harri], Kukko, A.[Antero], Manninen, T.[Terhikki], Lahtinen, P.[Panu], Siljamo, N.[Niilo],
Radiometric Calibration of TLS Intensity: Application To Snow Cover Change Detection,
DOI Link 1109

Shaker, A.[Ahmed], Yan, W.Y.[Wai Yeung], El-Ashmawy, N.[Nagwa],
The Effects of Laser Reflection Angle on Radiometric Correction Of The Airborne Lidar Intensity Data,
DOI Link 1109

Kaasalainen, S.[Sanna], Vain, A.[Ants], Krooks, A.[Anssi], Kukko, A.[Antero],
Topographic and Distance Effects in Laser Scanner Intensity Correction,
Laser09(219). 0909

Kaasalainen, S., Hyyppä, J., Mielonen, T.,
Laboratory calibration of backscattered intensity for laser scanning land targets,
PDF File. 0509

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Radiometric Calibration of Microwave Scanners .

Last update:Jun 14, 2021 at 09:20:36