24.4.6 Orthoimage Generation, Analysis, DEM

Chapter Contents (Back)
Orthoimage. Orthophotography. Orthorectification. Includes some issues related to aerial image mosaics.
See also Aerial Image Mosaic Generation, UAV Mosaics, Drone Mosaics.

Gopfert, W.M.[Wolfgang M.], Read, A.A.[Alvin A.],
Method and apparatus for contour mapping and orthophoto mapping,
US_Patent3,950,097, Apr 13, 1976
WWW Link. BibRef 7604

Lippmann, K.R.[K. Reiner], Dorgeloh, K.H.W.[K. Heinrich W.],
Method for the stereoscopic representation of image scenes with relative movement between imaging sensor and recorded scene,
US_Patent4,781,435, Nov 1, 1988
WWW Link. BibRef 8811

Plunk, G.W.[Gerald W.],
Automated video imagery database generation using photogrammetry,
US_Patent5,259,037, Nov 2, 1993
WWW Link. Transform to new view. BibRef 9311

Baltsavias, E.P.,
Digital Ortho-Images: A Powerful Tool for the Extraction of Spatial-Information and Geo-Information,
PandRS(51), No. 2, April 1996, pp. 63-77. 9605
BibRef

Spradley, L.H.,
Costs of Softcopy Orthophoto Bases for GIS Projects,
PandRS(51), No. 4, August 1996, pp. 182-187. BibRef 9608

Alrousan, N., Cheng, P., Petrie, G., Toutin, T., Valadan Zoej, M.J.,
Automated DEM Extraction and Orthoimage Generation from SPOT Level 1B Imagery,
PhEngRS(63), No. 8, August 1997, pp. 965-974. 9708
BibRef

Maas, H.G., Kersten, T.,
Aerotriangulation and DEM/Orthophoto Generation from High-Resolution Still-Video Imagery: On the Potential of Digital Cameras Onboard an Aircraft,
PhEngRS(63), No. 9, September 1997, pp. 1079-1084. 9709
BibRef

Evans, J.D.[John D.],
Interoperable Web-Based Services for Digital Orthophoto Imagery,
PhEngRS(65), No. 5, May 1999, pp. 567. An online service for disseminating digital geospatial imagery. BibRef 9905

Lear, A.C.,
Digital Orthophotography: Mapping with Pictures,
IEEE_CGA(17), No. 5, September/October 1997, pp. 12-14. 9709
BibRef

Greenfeld, J.[Joshua],
Evaluating the Accuracy of Digital Orthophoto Quadrangles (DOQ) in the Context of Parcel-Based GIS,
PhEngRS(67), No. 2, February 2001, pp. 199-206. The DOQ is evaluated for spatial, geometric, radiometric, and mosaicking accuracies, and for its appropriateness for parcel-based GIS. 0102
BibRef

Kerschner, M.[Martin],
Seamline detection in colour orthoimage mosaicking by use of twin snakes,
PandRS(56), No. 1, June 2001, pp. 53-64.
Elsevier DOI 0108
Error Analysis. Award, ISPRS. BibRef

Rau, J.Y.[Jiann-Yeou], Chen, N.Y.[Nai-Yu], Chen, L.C.[Liang-Chien],
True Orthophoto Generation of Built-Up Areas Using Multi-View Images,
PhEngRS(68), No. 6, June 2002, pp. 581. Reduce hidden region and shadow defects.
WWW Link. 0207
BibRef

Zhou, G., Chen, W., Kelmelis, J.A., Zhang, D.,
A Comprehensive Study on Urban True Orthorectification,
GeoRS(43), No. 9, September 2005, pp. 2138-2147.
IEEE DOI 0509
BibRef

Höhle, J.K.[Joachim K.], Potucková, M.[Markéta],
Automated Quality Control for Orthoimages and DEMs,
PhEngRS(71), No. 1, January 2005, pp. 81-89. The checking of the geometric accuracy of orthoimages and digital elevation models is automatically carried out by means of area-based matching of corresponding orthoimage patches, and results of tests with innovative methods are presented.
WWW Link. 0509
BibRef

Habib, A.F.[Ayman F.], Kim, E.M.[Eui-Myoung], Kim, C.J.[Chang-Jae],
New Methodologies for True Orthophoto Generation,
PhEngRS(73), No. 1, January 2007, pp. 25-36.
WWW Link. 0704
A new methodology for true orthophoto generation while circumventing the problems associated with existing techniques. BibRef

Liu, X.Y.[Xiao-Ye], Zhang, Z.Y.[Zhen-Yu], Peterson, J.[Jim], Chandra, S.[Shobhit],
LiDAR-Derived High Quality Ground Control Information and DEM for Image Orthorectification,
GeoInfo(11), No. 1, March 2007, pp. 37-53.
Springer DOI 0704
BibRef

Leprince, S., Barbot, S., Ayoub, F., Avouac, J.P.,
Automatic and Precise Orthorectification, Coregistration, and Subpixel Correlation of Satellite Images, Application to Ground Deformation Measurements,
GeoRS(45), No. 6, June 2007, pp. 1529-1558.
IEEE DOI 0706
BibRef

Karras, G.E.[George E.], Grammatikopoulos, L.[Lazaros], Kalisperakis, I.[Ilias], Pets, E.[Elli],
Generation of Orthoimages and Perspective Views with Automatic Visibility Checking and Texture Blending,
PhEngRS(73), No. 4, April 2007, pp. 403-412.
WWW Link. 0704
The generation of orthoimages and perspective views of existing fully 3D surface models based on color blending from multiple images and automatic detection of surface and image occlusions. BibRef

Tournas, L., and Tsakiri, M.,
Orthophoto Generation from Unorganized Point Clouds,
PhEngRS(73), No. 11, November 2007, pp. 1277-1284.
WWW Link. A new methodology for creating orthophotos from laser scanner point clouds. Does not generate triangulation of the surface first. BibRef 0711

Sheng, Y.W.[Yong-Wei], Alsdorf, D.E.,
Automated georeferencing and orthorectification of Amazon basin-wide SAR mosaics using SRTM DEM data,
GeoRS(43), No. 8, August 2005, pp. 1929-1940.
IEEE DOI 0508
BibRef

Lu, D.S.[Deng-Sheng], Ge, H.L.[Hong-Li], He, S.Z.[Shi-Zhen], Xu, A.J.[Ai-Jun], Zhou, G.[Guomo], Du, H.Q.[Hua-Qiang],
Pixel-based Minnaert Correction Method for Reducing Topographic Effects on a Landsat-7 ETM+ Image,
PhEngRS(74), No. 11, November 2008, pp. 1343-1350.
WWW Link. 0804
A pixel-based Minnaert correction approach is developed for reducing the topographic effects on a Landsat ETM+ image. BibRef

Zhou, G., Xie, W., Cheng, P.,
Orthoimage Creation of Extremely High Buildings,
GeoRS(46), No. 12, December 2008, pp. 4132-4141.
IEEE DOI 0812
BibRef

Zhou, G.,
Near Real-Time Orthorectification and Mosaic of Small UAV Video Flow for Time-Critical Event Response,
GeoRS(47), No. 3, March 2009, pp. 739-747.
IEEE DOI 0903
BibRef

Reinartz, P.[Peter], Muller, R.[Rupert], Schwind, P.[Peter], Suri, S.[Sahil], Bamler, R.[Richard],
Orthorectification of VHR optical satellite data exploiting the geometric accuracy of TerraSAR-X data,
PandRS(66), No. 1, January 2011, pp. 124-132.
Elsevier DOI 1101
Orthorectification; Matching; Optical data; Radar data; Mutual information BibRef

Bicheron, P., Amberg, V., Bourg, L., Petit, D., Huc, M., Miras, B., Brockmann, C., Hagolle, O., Delwart, S., Ranera, F., Leroy, M., Arino, O.,
Geolocation Assessment of MERIS GlobCover Orthorectified Products,
GeoRS(49), No. 8, August 2011, pp. 2972-2982.
IEEE DOI 1108
BibRef

Richter, R., Kellenberger, T., Kaufmann, H.,
Comparison of Topographic Correction Methods,
RS(1), No. 3, September 2009, pp. 184-196.
DOI Link 1203
BibRef

Yousefzadeh, M.[Meisam], Mojaradi, B.[Barat],
Combined rigorous-generic direct orthorectification procedure for IRS-p6 sensors,
PandRS(74), No. 1, November 2012, pp. 122-132.
Elsevier DOI 1212
Direct georeferencing; Orthoimage; Pushbroom; Ancillary data; DEM; Google Earth BibRef

Mills, S.[Steven], McLeod, P.[Philip],
Global seamline networks for orthomosaic generation via local search,
PandRS(75), No. 1, January 2013, pp. 101-111.
Elsevier DOI 1301
Aerial mosaic generation; Image processing; Graph algorithms; Optimal path finding; Orthomosaic Generation; Seamline networks BibRef

Gao, M.L.[Ming-Liang], Zhao, W.J.[Wen-Ji], Gong, Z.N.[Zhao-Ning], Gong, H.L.[Hui-Li], Chen, Z.[Zheng], Tang, X.M.[Xin-Ming],
Topographic Correction of ZY-3 Satellite Images and Its Effects on Estimation of Shrub Leaf Biomass in Mountainous Areas,
RS(6), No. 4, 2014, pp. 2745-2764.
DOI Link 1405
BibRef

Campagnolo, M.L., Montano, E.L.,
Estimation of Effective Resolution for Daily MODIS Gridded Surface Reflectance Products,
GeoRS(52), No. 9, September 2014, pp. 5622-5632.
IEEE DOI 1407
geomorphology. Due to variable viewing angle. BibRef

Jaud, M.[Marion], Rouveure, R.[Raphaël], Faure, P.[Patrice], Moiroux-Arvis, L.[Laure], Monod, M.O.[Marie-Odile],
Method for orthorectification of terrestrial radar maps,
PandRS(97), No. 1, 2014, pp. 185-194.
Elsevier DOI 1410
FMCW radar
See also Methods for FMCW radar map georeferencing. BibRef

Chen, Q.[Qi], Sun, M.W.[Ming-Wei], Hu, X.Y.[Xiang-Yun], Zhang, Z.X.[Zu-Xun],
Automatic Seamline Network Generation for Urban Orthophoto Mosaicking with the Use of a Digital Surface Model,
RS(6), No. 12, 2014, pp. 12334-12359.
DOI Link 1412
BibRef

Sola, I.[Ion], González-Audícana, M.[María], Álvarez-Mozos, J.[Jesús],
Validation of a Simplified Model to Generate Multispectral Synthetic Images,
RS(7), No. 3, 2015, pp. 2942-2951.
DOI Link 1504
BibRef

Zhang, Y.L.[Yan-Li], Li, X.[Xin], Wen, J.G.[Jian-Guang], Liu, Q.H.[Qin-Huo], Yan, G.J.[Guang-Jian],
Improved Topographic Normalization for Landsat TM Images by Introducing the MODIS Surface BRDF,
RS(7), No. 6, 2015, pp. 6558.
DOI Link 1507
BibRef

Markiewicz, J.S.[Jakub Stefan], Podlasiak, P.[Piotr], Zawieska, D.[Dorota],
A New Approach to the Generation of Orthoimages of Cultural Heritage Objects: Integrating TLS and Image Data,
RS(7), No. 12, 2015, pp. 15869.
DOI Link 1601
BibRef
Earlier:
Attempts to Automate the Process of Generation of Orthoimages of Objects of Cultural Heritage,
3D-Arch15(393-401).
DOI Link 1504
BibRef

Marsetic, A.[Aleš], Oštir, K.[Krištof], Fras, M.K.,
Automatic Orthorectification of High-Resolution Optical Satellite Images Using Vector Roads,
GeoRS(53), No. 11, November 2015, pp. 6035-6047.
IEEE DOI 1509
digital elevation models BibRef

Pehani, P.[Peter], Cotar, K.[Klemen], Marsetic, A.[Aleš], Zaletelj, J.[Janez], Oštir, K.[Krištof],
Automatic Geometric Processing for Very High Resolution Optical Satellite Data Based on Vector Roads and Orthophotos,
RS(8), No. 4, 2016, pp. 343.
DOI Link 1604
BibRef

Pang, S.Y.[Shi-Yan], Sun, M.W.[Ming-Wei], Hu, X.Y.[Xiang-Yun], Zhang, Z.X.[Zu-Xun],
SGM-based seamline determination for urban orthophoto mosaicking,
PandRS(112), No. 1, 2016, pp. 1-12.
Elsevier DOI 1602
Orthophoto mosaicking BibRef

Jhan, J.P.[Jyun-Ping], Rau, J.Y.[Jiann-Yeou], Huang, C.Y.[Cho-Ying],
Band-to-band registration and ortho-rectification of multilens/multispectral imagery: A case study of MiniMCA-12 acquired by a fixed-wing UAS,
PandRS(114), No. 1, 2016, pp. 66-77.
Elsevier DOI 1604
BibRef
Earlier: A2, A1, A3:
Ortho-Rectification of Narrow Band Multi-Spectral Imagery Assisted by DSLR RGB Imagery Acquired by a Fixed-Wing UAS,
UAV-g15(67-74).
DOI Link 1512
Multispectral sensor BibRef

Alrajhi, M.N.[Muhamad N.], Heipke, C.[Christian],
Automatic Generation of Orthorectified High Resolution Satellite Imagery: A Case Study for Saudi Arabia,
PFG(2016), No. 1, 2016, pp. 5-15.
DOI Link 1604
BibRef

Maas, A., Alrajhi, M.N.[Muhamad N.], Alobeid, A., Heipke, C.[Christian],
Automatic Classification Of High Resolution Satellite Imagery: A Case Study For Urban Areas In The Kingdom Of Saudi Arabia,
Hannover17(11-16).
DOI Link 1805
BibRef

Alrajhi, M.N., Jacobsen, K., Heipke, C.,
A procedure for semi-Automatic Orthophoto Generation from High Resolution Satellite Imagery,
SSG13(7-11).
DOI Link 1402

See also Delineation of Building Footprints from High Resolution Satellite Stereo Imagery Using Image Matching and a GIS Database. BibRef

Zhou, G.Q.[Guo-Qing], Yue, T.[Tao], Shi, Y.J.[Yu-Jun], Zhang, R.T.[Rong-Ting], Huang, J.J.[Jing-Jin],
Second-Order Polynomial Equation-Based Block Adjustment for Orthorectification of DISP Imagery,
RS(8), No. 8, 2016, pp. 680.
DOI Link 1609
BibRef

Lin, C.H.[Chao-Hung], Chen, B.H.[Bo-Heng], Lin, B.Y.[Bo-Yi], Chou, H.S.[Han-Szu],
Blending zone determination for aerial orthimage mosaicking,
PandRS(119), No. 1, 2016, pp. 426-436.
Elsevier DOI 1610
Image mosaicking BibRef

Pan, J.[Jun], Wang, M.[Mi], Cao, X.H.[Xiao-Hui], Chen, S.T.[Sheng-Tong], Hu, F.[Fen],
A Multi-Resolution Blending Considering Changed Regions for Orthoimage Mosaicking,
RS(8), No. 10, 2016, pp. 842.
DOI Link 1609
BibRef

Zhang, H.Y.[Hong-Ying], Pu, R.L.[Rui-Liang], Liu, X.[Xiuguo],
A New Image Processing Procedure Integrating PCI-RPC and ArcGIS-Spline Tools to Improve the Orthorectification Accuracy of High-Resolution Satellite Imagery,
RS(8), No. 10, 2016, pp. 827.
DOI Link 1609
BibRef

Habib, A.[Ayman], Han, Y.[Youkyung], Xiong, W.F.[Wei-Feng], He, F.N.[Fang-Ning], Zhang, Z.[Zhou], Crawford, M.[Melba],
Automated Ortho-Rectification of UAV-Based Hyperspectral Data over an Agricultural Field Using Frame RGB Imagery,
RS(8), No. 10, 2016, pp. 796.
DOI Link 1609
BibRef

Yang, C.Y.[Chang-Ye], Baireddy, S.[Sriram], Cai, E.[Enyu], Crawford, M.[Melba], Delp, E.J.[Edward J.],
Field-Based Plot Extraction Using UAV RGB Images,
CVPPA21(1390-1398)
IEEE DOI 2112
Image segmentation, Crops, Unmanned aerial vehicles BibRef

Zhu, X., Sun, M., Wang, S., Yu, L., Chen, Q., Wang, Y.,
Correction of False Topographic Perception Phenomenon Based on Topographic Correction in Satellite Imagery,
GeoRS(55), No. 1, January 2017, pp. 468-476.
IEEE DOI 1701
Geophysical techniques BibRef

Wang, D.L.[Dong-Liang], Cao, W.[Wei], Xin, X.P.[Xiao-Ping], Shao, Q.Q.[Quan-Qin], Brolly, M.[Matthew], Xiao, J.H.[Jian-Hua], Wan, Y.C.[You-Chuan], Zhang, Y.J.[Yong-Jun],
Using vector building maps to aid in generating seams for low-attitude aerial orthoimage mosaicking: Advantages in avoiding the crossing of buildings,
PandRS(125), No. 1, 2017, pp. 207-224.
Elsevier DOI 1703
Aerial image mosaicking BibRef

Wu, M.Q.[Ming-Quan], Yang, C.H.[Cheng-Hai], Song, X.Y.[Xiao-Yu], Hoffmann, W.C.[Wesley Clint], Huang, W.J.[Wen-Jiang], Niu, Z.[Zheng], Wang, C.Y.[Chang-Yao], Li, W.[Wang],
Evaluation of Orthomosics and Digital Surface Models Derived from Aerial Imagery for Crop Type Mapping,
RS(9), No. 3, 2017, pp. xx-yy.
DOI Link 1704
BibRef

Zhou, G.Q.[Guo-Qing], Zhang, R.T.[Rong-Ting], Liu, N.[Na], Huang, J.J.[Jing-Jin], Zhou, X.[Xiang], Zhang, R.T.[Rong-Ting], Liu, N.[Na], Huang, J.J.[Jing-Jin], Zhou, X.[Xiang],
On-Board Ortho-Rectification for Images Based on an FPGA,
RS(9), No. 9, 2017, pp. xx-yy.
DOI Link 1711
BibRef

Zheng, M.[Maoteng], Xiong, X.D.[Xiao-Dong], Zhu, J.F.[Jun-Feng],
A novel orthoimage mosaic method using a weighted A* algorithm - Implementation and evaluation,
PandRS(138), 2018, pp. 30-46.
Elsevier DOI 1804
Orthoimage mosaic, Weighted A algorithm, Voronoi diagram, Digital surface model, Edge diagram BibRef

Gharibi, H.[Hamid], Habib, A.[Ayman],
True Orthophoto Generation from Aerial Frame Images and LiDAR Data: An Update,
RS(10), No. 4, 2018, pp. xx-yy.
DOI Link 1805
BibRef

Chen, G.[Gang], Chen, S.[Song], Li, X.J.[Xian-Ju], Zhou, P.[Ping], Zhou, Z.[Zhou],
Optimal Seamline Detection for Orthoimage Mosaicking Based on DSM and Improved JPS Algorithm,
RS(10), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Kartal, H.[Hakan], Alganci, U.[Ugur], Sertel, E.[Elif],
Automated Orthorectification of VHR Satellite Images by SIFT-Based RPC Refinement,
IJGI(7), No. 6, 2018, pp. xx-yy.
DOI Link 1806
BibRef

Pan, J.[Jun], Fang, Z.H.[Zhong-Hao], Chen, S.T.[Sheng-Tong], Ge, H.[Huan], Hu, F.[Fen], Wang, M.[Mi],
An Improved Seeded Region Growing-Based Seamline Network Generation Method,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
BibRef

Liu, Y.[Yu], Zheng, X.Q.[Xin-Qi], Ai, G.[Gang], Zhang, Y.[Yi], Zuo, Y.Q.[Yu-Qiang],
Generating a High-Precision True Digital Orthophoto Map Based on UAV Images,
IJGI(7), No. 9, 2018, pp. xx-yy.
DOI Link 1810
BibRef

Li, L.[Li], Tu, J.M.[Jing-Min], Gong, Y.[Ye], Yao, J.[Jian], Li, J.[Jie],
Seamline network generation based on foreground segmentation for orthoimage mosaicking,
PandRS(148), 2019, pp. 41-53.
Elsevier DOI 1901
Orthoimage mosaicking, Seamline detection, Graph cuts, Seamline network, Foreground segmentation BibRef

Gonzalez, L.[Louis], Vallet, V.[Valérie], Yamamoto, H.[Hirokazu],
Global 15-Meter Mosaic Derived from Simulated True-Color ASTER Imagery,
RS(11), No. 4, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Pinto, A.T.[Ana Teresa], Gonçalves, J.A.[José A.], Beja, P.[Pedro], Honrado, J.P.[João Pradinho],
From Archived Historical Aerial Imagery to Informative Orthophotos: A Framework for Retrieving the Past in Long-Term Socioecological Research,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Han, Y.[Youkyung], Kim, T.[Taeheon], Yeom, J.[Junho],
Improved Piecewise Linear Transformation for Precise Warping of Very-High-Resolution Remote Sensing Images,
RS(11), No. 19, 2019, pp. xx-yy.
DOI Link 1910
BibRef

Baiocchi, V.[Valerio], Giannone, F.[Francesca], Monti, F.[Felicia], Vatore, F.[Felicia],
ACYOTB Plugin: Tool for Accurate Orthorectification in Open-Source Environments,
IJGI(9), No. 1, 2020, pp. xx-yy.
DOI Link 2001
BibRef

Li, X.H.[Xing-Hua], Li, Z.W.[Zhi-Wei], Feng, R.T.[Rui-Tao], Luo, S.[Shuang], Zhang, C.[Chi], Jiang, M.H.[Meng-Hui], Shen, H.F.[Huan-Feng],
Generating High-Quality and High-Resolution Seamless Satellite Imagery for Large-Scale Urban Regions,
RS(12), No. 1, 2019, pp. xx-yy.
DOI Link 2001
BibRef

Zhao, Y.[Yong], Cheng, Y.Q.[Yu-Qi], Zhang, X.S.[Xi-Shan], Xu, S.B.[Shi-Biao], Bu, S.H.[Shu-Hui], Jiang, H.K.[Hong-Kai], Han, P.C.[Peng-Cheng], Li, K.[Ke], Wan, G.[Gang],
Real-Time Orthophoto Mosaicing on Mobile Devices for Sequential Aerial Images with Low Overlap,
RS(12), No. 22, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Doukari, M.[Michaela], Katsanevakis, S.[Stelios], Soulakellis, N.[Nikolaos], Topouzelis, K.[Konstantinos],
The Effect of Environmental Conditions on the Quality of UAS Orthophoto-Maps in the Coastal Environment,
IJGI(10), No. 1, 2021, pp. xx-yy.
DOI Link 2101
BibRef

Lin, Y.C.[Yi-Chun], Zhou, T.[Tian], Wang, T.[Taojun], Crawford, M.[Melba], Habib, A.[Ayman],
New Orthophoto Generation Strategies from UAV and Ground Remote Sensing Platforms for High-Throughput Phenotyping,
RS(13), No. 5, 2021, pp. xx-yy.
DOI Link 2103
BibRef

Malbéteau, Y.[Yoann], Johansen, K.[Kasper], Aragon, B.[Bruno], Al-Mashhawari, S.K.[Samir K.], McCabe, M.F.[Matthew F.],
Overcoming the Challenges of Thermal Infrared Orthomosaics Using a Swath-Based Approach to Correct for Dynamic Temperature and Wind Effects,
RS(13), No. 16, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Baiocchi, V.[Valerio], Giannone, F.[Francesca], Monti, F.[Felicia],
How to Orient and Orthorectify PRISMA Images and Related Issues,
RS(14), No. 9, 2022, pp. xx-yy.
DOI Link 2205
BibRef

Yin, H.C.[Hong-Che], Li, Y.[Yunmeng], Shi, J.F.[Jun-Feng], Jiang, J.Q.[Jia-Qin], Li, L.[Li], Yao, J.[Jian],
Optimizing Local Alignment along the Seamline for Parallax-Tolerant Orthoimage Mosaicking,
RS(14), No. 14, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Han, P.C.[Peng-Cheng], Ma, C.[Cunbao], Chen, J.[Jian], Chen, L.[Lin], Bu, S.H.[Shu-Hui], Xu, S.B.[Shi-Biao], Zhao, Y.[Yong], Zhang, C.[Chenhua], Hagino, T.[Tatsuya],
Fast Tree Detection and Counting on UAVs for Sequential Aerial Images with Generating Orthophoto Mosaicing,
RS(14), No. 16, 2022, pp. xx-yy.
DOI Link 2208
BibRef

Zhou, G.Q.[Guo-Qing], Wang, Q.Y.[Qing-Yang], Huang, Y.S.[Yong-Sheng], Tian, J.[Jin], Li, H.R.[Hao-Ran], Wang, Y.F.[Yue-Feng],
True2 Orthoimage Map Generation,
RS(14), No. 17, 2022, pp. xx-yy.
DOI Link 2209
BibRef

Zhao, Z.H.[Zhi-Hao], Jiang, G.[Guang], Li, Y.S.[Yun-Song],
A Novel Method for Digital Orthophoto Generation from Top View Constrained Dense Matching,
RS(15), No. 1, 2023, pp. xx-yy.
DOI Link 2301
BibRef

da S. Pereira, F.R.[Francisco R.], dos Reis, A.A.[Aliny A.], Freitas, R.G.[Rodrigo G.], de M. Oliveira, S.R.[Stanley R.], do Amaral, L.R.[Lucas R.], Figueiredo, G.K.D.A.[Gleyce K. D. A.], Antunes, J.F.G.[João F. G.], Lamparelli, R.A.C.[Rubens A. C.], Moro, E.[Edemar], Magalhães, P.S.G.[Paulo S. G.],
Imputation of Missing Parts in UAV Orthomosaics Using PlanetScope and Sentinel-2 Data: A Case Study in a Grass-Dominated Area,
IJGI(12), No. 2, 2023, pp. xx-yy.
DOI Link 2303
BibRef

Lv, J.L.[Jian-Lin], Jiang, G.[Guang], Ding, W.[Wei], Zhao, Z.H.[Zhi-Hao],
Fast Digital Orthophoto Generation: A Comparative Study of Explicit and Implicit Methods,
RS(16), No. 5, 2024, pp. 786.
DOI Link 2403
BibRef


Ostrowski, W., Gulli, V.D., Bakula, K., Kurczynski, Z.,
Quality Aspects of True Orthophoto In Urban Areas,
ISPRS20(B5:191-198).
DOI Link 2012
BibRef

Luo, F., Li, C., Yan, Y.,
Quality Inspection and Evaluation of Satellite Orthophotos In China's Third National Land Survey,
ISPRS20(B3:1359-1363).
DOI Link 2012
BibRef

Guo, L., Wang, X., Yue, M.,
Improved Digital Orthorectification Map Generation Approach Using the Integrating of ZY3 and GF3 Image,
ICIVC20(82-85)
IEEE DOI 2009
Image color analysis, Satellites, Data models, Optical imaging, Optical polarization, Adaptive optics, Integrated optics, dodging and mosaic line editing BibRef

Gagliolo, S., Federici, B., Ferrando, I., Sguerso, D.,
Mago: a New Approach for Orthophotos Production Based On Adaptive Mesh Reconstruction,
GEORES19(533-538).
DOI Link 1912
BibRef

Perfetti, L., Fassi, F., Gulsan, H.,
Generation of Gigapixel Orthophoto for the Maintenance of Complex Buildings. Challenges and Lesson Learnt,
3DARCH19(605-614).
DOI Link 1904
BibRef

Pavoni, G., Corsini, M., Callieri, M., Palma, M., Scopigno, R.,
Semantic Segmentation of Benthic Communities from Ortho-mosaic Maps,
Underwater19(151-158).
DOI Link 1904
BibRef

Zhou, N., He, H., Bao, Y., Yue, C., Xing, K., Cao, S.,
Geometric Stitching Method for Double Cameras with Weak Convergence Geometry,
Hannover17(71-74).
DOI Link 1805
Uses the DEM. BibRef

Champion, N., Le-Hir, E., Masséra, S., Bellaiche, N.,
Automatic production of large-scale cloud-free orthomosaics from multitemporal satellite images,
MultiTemp17(1-3)
IEEE DOI 1712
clouds, radiometry, remote sensing, IGN-France, Ple´iades-HR satellite images, Seamless BibRef

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Wiedemann, A., Beckmann, S.,
Quality Aspects Of Aerial Digital Orthophotos, The Producers Point Of View,
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Cepický, J., Capek, L.,
Publishing Platform For Aerial Orthophoto Maps, The Complete Stack,
ISPRS16(B4: 211-213).
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Baltrusch, S.,
Truedop: A New Quality Step For Official Orthophotos,
ISPRS16(B4: 619-624).
DOI Link 1610
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Salach, A., Markiewicza, J.S., Zawieska, D.,
Integration Of Point Clouds From Terrestrial Laser Scanning And Image-based Matching For Generating High-resolution Orthoimages,
ISPRS16(B5: 399-404).
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Wierzbicki, D., Kedzierski, M., Fryskowska, A.,
Assesment of the Influence of UAV Image Quality on the Orthophoto Production,
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Krispel, U., Evers, H.L., Tamke, M., Viehauser, R., Fellner, D.W.,
Automatic Texture and Orthophoto Generation from Registered Panoramic Views,
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Maltezos, E.[Evangelos], Ioannidis, C.C.[Charalabos C.],
Orthoimage of Asclepieion at the Ancient Messene from UAV Images Applying Dense Image Matching,
EuroMed14(70-79).
Springer DOI 1412
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Gupta, S., Tienaah, T., Stefanakis, E.,
Examining Map Projection Distortions using Geospatial Web Tools,
Geospatial14(243-246).
DOI Link 1411
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Yagishita, D., Chikatsu, H.,
Generation of effective orthophotos for road surfaces using MMS,
CloseRange14(621-628).
DOI Link 1411
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Chen, Y., Briese, C., Karel, W., Pfeifer, N.,
True orthophoto generation using multi-view aerial images,
PCV14(67-71).
DOI Link 1404
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Brucas, D., Suziedelyte-Visockiene, J., Ragauskas, U., Berteska, E., Rudinskas, D.,
Implementation and Testing of Low Cost UAV Platform for Orthophoto Imaging,
UAV-g13(55-59).
DOI Link 1311
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Pech, K., Stelling, N., Karrasch, P., Maas, H.G.,
Generation of Multitemporal Thermal Orthophotos from UAV Data,
UAV-g13(305-310).
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Skarlatos, D., Kiparissi, S., Theodoridou, S.,
Direct Orthophoto Generation from Color Point Clouds of Complex Scenes,
UAV-g13(367-371).
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Bagheri, H., Sadeghian, S.,
Ortho Image and DTM Generation with Intelligent Methods,
SMPR13(475-480).
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Rumpler, M.[Markus], Wendel, A.[Andreas], Bischof, H.[Horst],
Probabilistic Range Image Integration for DSM and True-Orthophoto Generation,
SCIA13(533-544).
Springer DOI 1311
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Oliveira, H.C., Galo, M.,
Occlusion Detection by Height Gradient for True Orthophoto Generation, Using Lidar Data,
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Zilly, F., Riechert, C., Muller, M., Waizenegger, W., Sikora, T., Kauff, P.,
Multi-camera rectification using linearized trifocal tensor,
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Ju, H.,
A New Approach of Digital Bridge Surface Model Generation,
ISPRS12(XXXIX-B3:29-34).
DOI Link 1209
To avoid collapsing bridges to the ground surface in orthoimage. BibRef

Sugiyama, F., Chikatsu, H.,
Accuracy Improvement Of DEM For Generating Orthophoto By Reverse Projection Method,
ISPRS12(XXXIX-B4:177-182).
DOI Link 1209
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Sahin, H., Kulur, S.,
Orthorectification By Using GPGPU Method,
ISPRS12(XXXIX-B4:165-170).
DOI Link 1209
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Li, G., Wang, H., Li, C.,
Ortho-rectification of HJ-1A/1B Multi-spectral Image Based on the GCP Image Database,
ISPRS12(XXXIX-B4:335-338).
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Jordan, T.R., Madden, M., Sharma, J.B., Panda, S.S.,
Applied Geospatial Education: Acquisition And Processing Of High Resolution Airborne Lidar And Orthoimages For The Great Smoky Mountains National Park, Southeastern United States,
ISPRS12(XXXIX-B6:53-57).
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Walcher, W., Leberl, F., Gruber, M.,
The Microsoft Global Ortho Program,
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Wang, X., Xie, J.,
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Sakamoto, M., Tachibana, K., Shimamura, H.,
Generation Of High Resolution And High Precision Orthorectified Road Imagery From Mobile Mapping System,
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Chen, T.[Tianen], Yamamoto, K.[Kohei], Tachibana, K.[Kikuo],
A Method Of Generating Panoramic Street Strip Image Map With Mobile Mapping System,
ISPRS16(B1: 537-544).
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Chen, T., Yamamoto, K., Chhatkuli, S., Shimamura, H.,
Panoramic Epipolar Image Generation for Mobile Mapping System,
ISPRS12(XXXIX-B5:459-464).
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Pyka, K., Siota, M., Twardowski, M.,
Usage of Stereo Orthoimage in GIS: Old Concept, Modern Solution,
ISPRS12(XXXIX-B4:379-383).
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Kim, H., Kim, M.G.,
Image Registration Using Terrain Relief Correction Based On The Rigorous Sensor Models,
ISPRS12(XXXIX-B1:235-238).
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Jawed, K.[Khurram], Morris, J.[John],
Verging Axis Stereophotogrammetry,
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Springer DOI 1111
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Jiang, K.[Kang], Zhao, Y.C.[Yong-Chao], Geng, X.R.[Xiu-Rui],
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Du, Q.Y.[Quan-Ye], Nie, Z.S.[Zhao-Sheng], Li, X.[Xuan], Tian, X.Z.[Xiao-Zhen],
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Dai, C.G.[Chen-Guang], Yang, J.Y.[Jing-Yu],
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Xie, W.H.[Wen-Han], Zhou, G.Q.[Guo-Qing],
Experimental Realization of Urban Large-Scale True Orthoimage Generation,
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Strecha, C.[Christoph], Van Gool, L.J.[Luc J.], Fua, P.[Pascal],
A Generative Model for True Orthorectificatio,
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Georgopoulos, A., Natsis, S.,
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Li, B.P.[Bai-Peng], Yan, Q.[Qin], Cheng, C.Q.[Chun-Quan], Wei, Y.L.[Yan-Liang],
The Accuracy Assessment Experimentof Aster 3D Ortho Product in Beijing Area,
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Zhu, L., Umakawa, H., Guan, F., Tachibana, K., Shimamura, H.,
Accuracy Investigation of Orthoimages Obtained from High Resolution Satellite Stereo Pairs,
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Wu, X.,
A Simplified Ortho-Rectification Approach for Satellite Imagery,
ISPRS08(B3a: 1 ff).
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Lee, T.Y.[Tae-Yoon], Jeong, J.H.[Jae Hoon], Kim, T.[Taejung], Park, W.[Wanyong],
Automated Update of Existing Ortho-Image Database and DEM Using High resolution Satellite Images,
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Barazzetti, L., Scaioni, M.,
Automatic orientation of image sequences for 3-D object reconstruction: First results of a method integrating photogrammetric and computer vision algorithms,
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Barazzetti, L.[Luigi], Brovelli, M., Scaioni, M.[Marco],
Problems Related to the Generation of True-Orthophotos with Lidar DDSMs,
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Yue, X.J., Huang, G.M., Zhang, Y., Zhao, Z., Pang, L., Leberl, F.,
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Gonçalves, J.A.[José A.], Marçal, A.R.S.[André R. S.],
Automatic Ortho-rectification of ASTER Images by Matching Digital Elevation Models,
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Al-Bayari, O.[Omar], Al-Hanbali, N.[Nedal], Barbarella, M., Nashwan, A.,
Quality Assessment of DTM and Orthophoto Generated by Airborne Laser Scanning System Using Automated Digital Photogrammetry,
PCV02(B: 7). 0305
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Li, D.R.[De-Ren], Wang, M.[Mi], Gong, J.Y.[Jia-Ya],
Principle of Seamless Stereo Orthoimage Database and its Measurement Accuracy Analysis,
PCV02(B: 151). 0305
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Chapter on Cartography, Aerial Images, Buildings, Roads, Terrain, Forests, Trees, ATR continues in
DEM, Surface Analysis for Ridges and Streams, Rivers, Drainage, Depressions .


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