24.2.2.1 LiDAR Based Georeference, Laser Assisted, SAR Geo-Registration

Ely, R.W.[Richard W.], Lundgren, J.C.[James C.], Müller, W.J.[Walter J.],
Processes to Support Error Estimation for Model Supported Positioning,
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Ely, R.W.[Richard W.], di Girolamo, J.[Joseph],
Automated Model-to-Image Registration,
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Ely, R.W.[Richard W.], di Girolamo, J.[Joseph],
Model-to-SAR Image Registration,
SPIE(3072), April 1997, pp. 318-325. BibRef 9704

Mohamed, A., Wilkinson, B.,
Direct Georeferencing of Stationary LiDAR,
RS(1), No. 4, December 2009, pp. 1321-1337.
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Vennegeerts, H.[Harald], Paffenholz, J.A.[Jens-André], Martin, J.[Jens], Kutterer, H.[Hansjörg],
Two Variants on Direct Geo-referencing of Terrestrial Laser Scans,
PFG(2009), No. 1, 2009, pp. 33-42.
WWW Link. 1211
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Xu, H., Kang, C.,
Equivalence Analysis of Accuracy of Geolocation Models for Spaceborne InSAR,
GeoRS(48), No. 1, January 2010, pp. 480-490.
IEEE DOI 1001
BibRef

Schubert, A., Jehle, M., Small, D., Meier, E.,
Influence of Atmospheric Path Delay on the Absolute Geolocation Accuracy of TerraSAR-X High-Resolution Products,
GeoRS(48), No. 2, February 2010, pp. 751-758.
IEEE DOI 1002
BibRef

Zhang, Y.J.[Yong-Jun], Shen, X.[Xiang],
Direct georeferencing of airborne LiDAR data in national coordinates,
PandRS(84), No. 0, 2013, pp. 43-51.
Elsevier DOI 1309
Distortion BibRef

Zhao, Q.Y.[Quan-Ying], Hütt, C.[Christoph], Lenz-Wiedemann, V.I.S.[Victoria I. S.], Miao, Y.X.[Yu-Xin], Yuan, F.[Fei], Zhang, F.[Fusuo], Bareth, G.[Georg],
Georeferencing Multi-source Geospatial Data Using Multi-temporal TerraSAR-X Imagery: a Case Study in Qixing Farm, Northeast China,
PFG(2015), No. 2, 2015, pp. 173-185.
DOI Link 1506
BibRef

Merkle, N.[Nina], Luo, W.J.[Wen-Jie], Auer, S.[Stefan], Müller, R.[Rupert], Urtasun, R.[Raquel],
Exploiting Deep Matching and SAR Data for the Geo-Localization Accuracy Improvement of Optical Satellite Images,
RS(9), No. 6, 2017, pp. xx-yy.
DOI Link 1706
BibRef

Deng, M.J.[Ming-Jun], Zhang, G.[Guo], Cai, C.L.[Cheng-Lin], Xu, K.[Kai], Zhao, R.[Ruishan], Guo, F.C.[Feng-Chen], Suo, J.[Jing],
Improvement and Assessment of the Absolute Positioning Accuracy of Chinese High-Resolution SAR Satellites,
RS(11), No. 12, 2019, pp. xx-yy.
DOI Link 1907
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Duque, S., Parizzi, A., de Zan, F.,
Precise and Automatic 3-D Absolute Geolocation of Targets Using Only Two Long-Aperture SAR Acquisitions,
GeoRS(57), No. 8, August 2019, pp. 5395-5406.
IEEE DOI 1908
atmospheric electromagnetic wave propagation, backscatter, feature extraction, image matching, image resolution, zenith path delay (ZPD) estimation BibRef

Jiao, N.A.[Niang-Ang], Wang, F.[Feng], You, H.J.[Hong-Jian], Liu, J.Y.[Jia-Yin], Qiu, X.L.[Xiao-Lan],
A generic framework for improving the geopositioning accuracy of multi-source optical and SAR imagery,
PandRS(169), 2020, pp. 377-388.
Elsevier DOI 2011
Geopositioning accuracy improvement, Multi-source datasets, Small satellite constellation, Geometric integration, Heterogeneous weight strategy BibRef

Gisinger, C., Schubert, A., Breit, H., Garthwaite, M., Balss, U., Willberg, M., Small, D., Eineder, M., Miranda, N.,
In-Depth Verification of Sentinel-1 and TerraSAR-X Geolocation Accuracy Using the Australian Corner Reflector Array,
GeoRS(59), No. 2, February 2021, pp. 1154-1181.
IEEE DOI 2101
Synthetic aperture radar, Geology, Azimuth, Orbits, Radar polarimetry, Australia, Arrays, Geodesy, radar remote sensing, synthetic aperture radar BibRef

Jiao, N.G.[Nian-Gang], Wang, F.[Feng], You, H.J.[Hong-Jian],
A New Combined Adjustment Model for Geolocation Accuracy Improvement of Multiple Sources Optical and SAR Imagery,
RS(13), No. 3, 2021, pp. xx-yy.
DOI Link 2102
BibRef

Luo, Y.T.[Yi-Tong], Qiu, X.L.[Xiao-Lan], Peng, L.X.[Ling-Xiao], Wang, W.[Wei], Lin, B.[Bei], Ding, C.B.[Chi-Biao],
A novel solution for stereo three-dimensional localization combined with geometric semantic constraints based on spaceborne SAR data,
PandRS(192), 2022, pp. 161-174.
Elsevier DOI 2209
Spaceborne synthetic aperture radar, Stereo SAR, Geometric semantic constraints, Relative positioning accuracy BibRef

Li, Y.Y.[Ying-Ying], Wu, H.[Hao], Meng, D.[Dadi], Gao, G.[Gemengyue], Lian, C.P.[Cui-Ping], Wang, X.Y.[Xue-Ying],
Ground Positioning Method of Spaceborne SAR High-Resolution Sliding-Spot Mode Based on Antenna Pointing Vector,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
BibRef

Jiang, B.Y.[Bo-Yang], Dong, X.H.[Xiao-Huan], Deng, M.J.[Ming-Jun], Wan, F.Q.[Fang-Qi], Wang, T.[Taoyang], Li, X.[Xin], Zhang, G.[Guo], Cheng, Q.[Qian], Lv, S.Y.[Shu-Ying],
Geolocation Accuracy Validation of High-Resolution SAR Satellite Images Based on the Xianning Validation Field,
RS(15), No. 7, 2023, pp. 1794.
DOI Link 2304
BibRef

Tong, W.H.[Wen-Hao], Yu, A.X.[An-Xi], Zhang, K.[Keke], Dong, Z.[Zhen],
A Robust and High-Precision Three-Step Positioning Method for an Airborne SAR Platform,
RS(15), No. 15, 2023, pp. xx-yy.
DOI Link 2308
BibRef

Lieskovský, T.[Tibor], Kotleba, T.[Tadeáš], Šperka, J.[Jakub], Duraciová, R.[Renata],
Airborne Lidar Refines Georeferencing Austro-Hungarian Maps from the First and Second Military Surveys,
IJGI(14), No. 7, 2025, pp. 274.
DOI Link 2507
BibRef

Krylov, V.A., Dahyot, R.,
Object Geolocation Using MRF Based Multi-Sensor Fusion,
ICIP18(2745-2749)
IEEE DOI 1809
Laser radar, Cameras, Geology, Pipelines, Image segmentation, Object geolocation, traffic lights BibRef

Hellwich, O.[Olaf], Wefelscheid, C.[Cornelius], Lukaszewicz, J.[Jakub], Hänsch, R.[Ronny],
Integrated Matching and Geocoding of SAR and Optical Satellite Images,
IbPRIA13(798-807).
Springer DOI 1307
BibRef

Yue, X.J., Han, C.M.,
Research on the Mathematic Model of Direct Geolocation with Airborne SAR Image,
ISIDF11(1-4).
IEEE DOI 1111
BibRef

Kohoutek, T.K.[Tobias K.], Nitsche, M.[Manuel], Eisenbeiss, H.[Henri],
Geo-Referenced Mapping Using An Airborne 3d Time-Of-Flight Camera,
Laser11(xx-yy).
DOI Link 1109
BibRef

Miri, M., Varshosaz, M.,
Evaluating Parameters Affecting The Georeferencing Accuracy Of Terrestrial Laser Scanners,
3DARCH11(xx-yy).
PDF File. 1103
BibRef

Johansen, K.[Kasper], Phinn, S.R.[Stuart R.],
Mapping Riparian Zones over Large Regions from High Spatial Resolution Satellite and Airborne Imagery: Specifications for Operational Mapping,
HighRes09(xx-yy).
PDF File. 0906
BibRef

Johansen, K.[Kasper], Arroyo, L.[Lara], Phinn, S.R.[Stuart R.],
Operational Mapping of the Environmental Condition of Riparian Zones over Large Regions from LiDAR Data,
Laser09(299). 0909
BibRef

Habib, A.F., Aldelgawy, M.,
Alternative Procedures for the Incorporation of LIDAR-Derived Linear and Areal Features for Photogrammetrec Geo-Referencing,
ISPRS08(B1: 219 ff).
PDF File. 0807
BibRef

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