15.2.1 Camera Calibration -- Photogrammetric

Kruppa, E.,
Zur Ermittlung eines Objektes aus zwei Perspektiven mit innerer Orientierung,
OtherSitz-Ber. Akad. Wiss., Wien, Math. Narurw. Abt. IIa., Vol. 122, 1913, pp. 1939-1948. Rediscovered by: See also Theory of Self-Calibration of a Moving Camera, A. Also derived by: See also Kruppa's Equations Derived from the Fundamental Matrix. (in a simpler form). BibRef 1300

Levenberg, K.,
A Method for the Solution of Certain Problems in Least Squares,
QAM(2), 1944, 1944. Alternative to Gauss-Newton. BibRef 4400

Marquardt, D.,
An Algorithm for Least-Squares Estimation of Nonlinear Parameters,
SIAM_JAM(11), 1963, pp. 431-441. Levenberg-Marquardt is a popular alternative to the Gauss-Newton method of finding the minimum of a function F(x) that is a sum of squares of nonlinear functions.
HTML Version. Code, Levenberg-Marquardt. BibRef 6300

Brown, D.C.,
Close-Range Camera Calibration,
PhEng(37), No. 8, August 1971, pp. 855-866. Early discussion of calibration. BibRef 7108

Faig, W.,
Calibration of Close-Range Photogrammetry System: Mathematical Formulation,
PhEngRS(41), No. 12, December 1975, pp. 1479-1486. BibRef 7512

Bethel, J.S.,
Geometric Alignment and Calibration of a Photogrammetric Image Scanner,
PandRS(50), No. 2, April 1995, pp. 37-42. Photogrammetric techniques. BibRef 9504

Lee, C.[Changno], Theiss, H.J.[Henry J.], Bethel, J.S.[James S.], Mikhail, E.M.[Edward M.],
Rigorous Mathematical Modeling of Airborne Pushbroom Imaging Systems,
PhEngRS(66), No. 4, April 2000, pp. 385-392. An accurate HYDICE rectification is obtained using a Gauss-Markov technique that exploits linear feature triangulation. 0004 BibRef

Lee, C.[Changno], Bethel, J.S.,
Georegistration of airborne hyperspectral image data,
GeoRS(39), No. 7, July 2001, pp. 1347-1351.
IEEE Top Reference. 0108Aircraft are not stable so calibration of the flight line requires more analysis. BibRef

Lee, C.[Changno], Bethel, J.S.[James S.],
Extraction, modelling, and use of linear features for restitution of airborne hyperspectral imagery,
PandRS(58), No. 5-6, July 2004, pp. 289-300.
WWW Version. 0411 BibRef

Lue, Y.,
One-Step to a Higher-Level of Automation for Softcopy Photogrammetry Automatic Interior Orientation,
PandRS(52), No. 3, June 1997, pp. 103-109. 9708 BibRef

Drewniok, C., Rohr, K.,
Exterior Orientation: An Automatic Approach Based on Fitting Analytic Landmark Models,
PandRS(52), No. 3, June 1997, pp. 132-145. 9708 BibRef

Rohr, K.[Karl], and Drewniok, C.[Christian],
Model-Based Landmark Extraction and Correspondence Finding for Aerial Image Registration,
VideoRegister03(Chapter 5). BibRef 0300

Kersten, T., Haering, S.,
Automatic Interior Orientation of Digital Aerial Images,
PhEngRS(63), No. 8, August 1997, pp. 1007-1011. 9708 BibRef

Liang, T., Heipke, C.,
Automatic Relative Orientation of Aerial Images,
PhEngRS(62), No. 1, January 1996, pp. 47-55. BibRef 9601

Youcai, H.[Huang], Haralick, R.M.[Robert M.],
Testing Camera Calibration with Constraints,
PhEngRS(65), No. 3, March 1999, pp. 249-258. Use known geometric relations of points and lines. BibRef 9903

Casazza, P., Christensen, O.,
Approximation of the Frame Coefficients Using Finite-Dimensional Methods,
JEI(6), No. 4, October 1997, pp. 479-483. 9807 BibRef

Keeler, S.P.[Stephen P.], Nievergelt, Y.[Yves],
Computing Geodetic Coordinates,
SIAM_Rev(40), No. 2, 1998, pp. 300-309. Different methods for different uses. BibRef 9800

Mishra, A.K., Nath, A.N.,
Determination of satellite nadir and azimuth angles for a tilting sensor,
JRS(20), No. 17, November 1999, pp. 3265. BibRef 9911

Ji, M.[Minhe], Jensen, J.R.[John R.],
Continuous Piecewise Geometric Rectification for Airborne Multispectral Scanner Imagery,
PhEngRS(66), No. 2, February 2000, pp. 163-172. Two case studies with different sensor and terrain characteristics illustrate the advantages of this approach. 0002 BibRef

Maas, H.G.[Hans-Gerd],
Image sequence based automatic multi-camera system calibration techniques,
PandRS(54), No. 5-6, December 1999, pp. 352-359. 0002 BibRef

Kornus, W.[Wolfgang], Lehner, M.[Manfred], Schroeder, M.[Manfred],
Geometric in-flight calibration of the stereoscopic line-CCD scanner MOMS-2P,
PandRS(55), No. 1, February 2000, pp. 59-71. 0004 BibRef

Joseph, G.[George],
How well do we understand Earth observation electro-optical sensor parameters?,
PandRS(55), No. 1, February 2000, pp. 9-12. 0004 BibRef

Atkinson, K.B.,
Close Range Photogrammetry and Machine Vision,
Whittles Publishing1996. BibRef 9600

Ji, Q.[Qiang], Costa, M.S.[Mauro S.], Haralick, R.M.[Robert M.], Shapiro, L.G.[Linda G.],
A robust linear least-squares estimation of camera exterior orientation using multiple geometric features,
PandRS(55), No. 2, June 2000, pp. 75-93. 0008 BibRef

Lee, C.N., Haralick, R.M.,
Statistical Estimation for Exterior Orientation from Line-to-Line Correspondences,
IVC(14), No. 6, June 15 1996, pp. 379-388.
WWW Version. 9607 BibRef

Zhou, G.Q.[Guo-Qing], Li, R.[Ron],
Accuracy Evaluation of Ground Points from IKONOS High-Resolution Satellite Imagery,
PhEngRS(66), No. 9, September 2000, pp. 1103-1112. An error analysis of image measurement and exterior orientation errors. Using the polynomial fit to the orbital path. 0010 BibRef

Kim, T.[Taejung], Shin, D.[Dongseok], Lee, Y.R.[Young-Ran],
Development of a Robust Algorithm for Transformation of a 3D Object Point onto a 2D Image Point for Linear Pushbroom Imagery,
PhEngRS(67), No. 4, April 2001, pp. 449-452.
WWW Version. 0105 BibRef

Wang, X., Clarke, T.A.,
Separate adjustment in close-range photogrammetry,
PandRS(55), No. 5-6, March 2001, pp. 289-298.
HTML Version. 0105 BibRef

Mostafa, M.M.R.[Mohamed M.R.], Schwarz, K.P.[Klaus-Peter],
Digital image georeferencing from a multiple camera system by GPS/INS,
PandRS(56), No. 1, June 2001, pp. 1-12.
HTML Version. 0108 BibRef

Habib, A.F.[Ayman F.], Kelley, D.[Devin],
Single-Photo Resection Using the Modified Hough Transform,
PhEngRS(67), No. 8, August 2001, pp. 909-914. Modified Hough Transform single-photo resection.
WWW Version. 0108 BibRef

Habib, A.F.[Ayman F.], Lin, H.T.[Hsiang Tseng], Morgan, M.F.[Michel F.],
Line-Based Modified Iterated Hough Transform for Autonomous Single-Photo Resection,
PhEngRS(69), No. 12, December 2003, pp. 1351-1358. Use free-form linear features, represented by a set of consecutive straight-line segments, in the Modified Iterated Hough Transform (MIHT); useful for integrating existing GIS databases with aerial imagery for change detection and updating applications.
WWW Version. 0401 BibRef

Crosilla, F.[Fabio], Beinat, A.[Alberto],
Use of generalised Procrustes analysis for the photogrammetric block adjustment by independent models,
PandRS(56), No. 3, April 2002, pp. 195-209.
HTML Version. 0205 BibRef

Olague, G.[Gustavo],
Automated Photogrammetric Network Design Using Genetic Algorithms,
PhEngRS(68), No. 5, May 2002, pp. 423-432. Generate the attitude of each camera in the network, Consider imaging geometry, visibility, convergence angle, and workspace constraint.
WWW Version. 0206 BibRef

Couloigner, I., Thomson, K.P.B., Bédard, Y., Moulin, B., LeBlanc, E., Djima, C., Latouche, C., Spicher, N.,
Towards Automating the Selection of Ground Control Points in Radarsat Images Using a Topographic Database and Vector-Based Data Matching,
PhEngRS(68), No. 5, May 2002, pp. 433-440. Select GCPs for Water.
WWW Version. 0206 BibRef

Di, K.C.[Kai-Chang], Ma, R.J.[Rui-Jin], Li, R.[Ron],
Rational Functions and Potential for Rigorous Sensor Model Recovery,
PhEngRS(69), No. 1, January 2003, pp. 33-42. After improving the geopositioning accuracy of Ikonos Geo stereo imagery with ground control points by either refining the vendor-provided Ikonos RF coefficients or refining the RF-derived ground coordinates, the accuracy of 3D ground point determination was improved to 1 to 2 meters.
WWW Version. 0304 BibRef

Tao, C.V.[C. Vincent], Hu, Y.[Yong], Jiang, W.,
Photogrammetric exploitation of Ikonos imagery for mapping applications,
JRS(25), No. 14, 2004, 2833-2853.
PDF Version. BibRef 0400

Tao, C.V.[C. Vincent], Hu, Y.[Yong],
3D reconstruction methods based on the rational function model,
PhEngRS(68), No. 7, July 2002, pp. 705-714.
PDF Version. BibRef 0207

Tao, C.V.[C. Vincent], Hu, Y.[Yong],
Updating solutions of the rational function model using additional control information,
PhEngRS(68), No. 7, July 2002, pp. 715-724.
PDF Version. BibRef 0207

Tao, C.V.[C. Vincent], Hu, Y.[Yong],
Use of the rational function model for imagery rectification,
CanRS(27), No. 6, 2001, pp. 593-602.
PDF Version. BibRef 0100

Tao, C.V.[C. Vincent], Hu, Y.[Yong],
The rational function model: A Tool for Processing High-Resolution Imagery,
EOMag(10), No. 1, 2001, pp. 13-16.
PDF Version. BibRef 0100

Tao, C.V.[C. Vincent], Hu, Y.[Yong],
A Comprehensive Study of the Rational Function Model for Photogrammetric Processing,
PhEngRS(67), No. 12, December 2001, pp. 1347-1357. RPC discussion.
PDF Version. BibRef 0112

Grodecki, J.[Jacek], Dial, G.[Gene],
Block Adjustment of High-Resolution Satellite Images Described by Rational Functions,
PhEngRS(69), No. 1, January 2003, pp. 59-70. For Ikonos satellite imagery, the Rational Polynomial Coefficient (RPC) block adjustment achieves the same accuracy as the ground station block adjustment with the full physical camera model.
WWW Version. 0304 BibRef

Orun, A.B., Alkis, A.,
Material identification by surface reflection analysis in combination with bundle adjustment technique,
PRL(24), No. 9-10, June 2003, pp. 1589-1598.
WWW Version. 0304 BibRef

Toutin, T.[Thierry],
Block Bundle Adjustment of Landsat 7 ETM+ Images over Mountainous Areas,
PhEngRS(69), No. 12, December 2003, pp. 1341-1351.
WWW Version. 0401The generation of image blocks with Landsat 7 ETM+ imagery and the evaluation of the block bundle adjustment with a reduced number of GCPs are described. See also DEM from stereo Landsat 7 ETM+ data over high relief areas. BibRef

Eugenio, F., Marques, F.,
Automatic satellite image georeferencing using a contour-matching approach,
GeoRS(41), No. 12, December 2003, pp. 2869-2880.
IEEE Abstract. IEEE Top Reference. 0402 BibRef

Eugenio, F., Marqués, F., Marcello, J.,
Pixel and Sub-pixel Accuracy in Satellite Image Georeferencing Using an Automatic Contour Matching Approach,
ICIP01(I: 822-825).
IEEE Abstract. IEEE Top Reference. 0108 BibRef

Guienko, G.A.,
Geometric Accuracy of Ikonos: Zoom In,
GeoRS(42), No. 1, January 2004, pp. 209-214.
IEEE Abstract. IEEE Top Reference. 0402 BibRef

Bartoli, A.[Adrien], Sturm, P.F.[Peter F.],
Nonlinear Estimation of the Fundamental Matrix with Minimal Parameters,
PAMI(26), No. 3, March 2004, pp. 426-432.
IEEE Abstract. IEEE Top Reference. 0402 BibRef
Earlier:
Three New Algorithms for Projective Bundle Adjustment with Minimum Parameters,
INRIARR-4236, August 2001.
HTML Version. 0211Rather than parameterizing, update the orthonormal representation based on SVD. BibRef

Bartoli, A.,
Towards Gauge Invariant Bundle Adjustment: A Solution Based on Gauge Dependent Damping,
ICCV03(760-765).
WWW Version. 0311 BibRef
Earlier:
A unified framework for quasi-linear bundle adjustment,
ICPR02(II: 560-563).
WWW Version. 0211 BibRef

Malis, E.[Ezio], Bartoli, A.[Adrien],
Euclidean Bundle Adjustment Independent on Camera Intrinsic Parameters,
INRIARR-4377, December 2001.
HTML Version. 0211 BibRef

Bartoli, A.[Adrien],
Estimating the Pose of a 3D Sensor in a Non-rigid Environment,
WDV06(243-256).
WWW Version. 0705 BibRef

Schenk, T.,
From point-based to feature-based aerial triangulation,
PandRS(58), No. 5-6, July 2004, pp. 315-329.
WWW Version. 0411 BibRef

Han, Y.[Youngmo],
Relations between bundle-adjustment and epipolar-geometry-based approaches, and their applications to efficient structure from motion,
RealTimeImg(10), No. 6, December 2004, pp. 389-402.
WWW Version. 0501 BibRef

Tommaselli, A.M.G.[Antonio Maria Garcia], Reiss, M.L.L.[Mário Luis Lopes],
A Photogrammetric Method for Single Image Orientation and Measurement,
PhEngRS(71), No. 6, June 2005, pp. 727-732. Camera attitude is indirectly computed using vertical and horizontal straight lines while its position is directly measured with a lasermeter.
WWW Version. 0509 BibRef

Tommaselli, A.M.G., Dal Poz, A.P.,
Line Based Orientation of Aerial Images,
ISPRSGIS99(143-148). BibRef 9900

Wang, F.Y.[Fei-Yue],
An efficient coordinate frame calibration method for 3-D measurement by multiple camera systems,
SMC-C(35), No. 4, November 2005, pp. 453-464.
WWW Version. 0512Transforms between cameras from individual transforms to relative world. BibRef

Fraser, C.S.[Clive S.], Hanley, H.B.[Harry B.],
Bias-compensated RPCs for Sensor Orientation of High-resolution Satellite Imagery,
PhEngRS(71), No. 8, August 2005, pp. 909-916.
WWW Version. 0602A bias-compensated RCP bundle adjustment is shown to produce sub-pixel accuracy geopositioning from Ikonos and Quickbird stereo imagery. BibRef

Purdy, W.E., Gaiser, P.W., Poe, G.A., Uliana, E.A., Meissner, T., Wentz, F.J.,
Geolocation and Pointing Accuracy Analysis for the WindSat Sensor,
GeoRS(44), No. 3, March 2006, pp. 496-505.
WWW Version. 0604 BibRef

Fraser, C.S.[Clive S.], Dial, G.[Gene], Grodecki, J.[Jacek],
Sensor orientation via RPCs,
PandRS(60), No. 3, May 2006, pp. 182-194.
WWW Version. 0610High resolution; Satellite; Imagery; Orientation BibRef

Honkavaara, E.[Eija], Ahokas, E.[Eero], Hyyppä, J.[Juha], Jaakkola, J.[Juha], Kaartinen, H.[Harri], Kuittinen, R.[Risto], Markelin, L.[Lauri], Kimmo,
Geometric test field calibration of digital photogrammetric sensors,
PandRS(60), No. 6, September 2006, pp. 387-399.
WWW Version. 0610accuracy; aerial; Calibration; camera; distortion; geometric; orientation BibRef

Reyes, L.[Leo], Bayro-Corrochano, E.[Eduardo],
Simultaneous and Sequential Reconstruction of Visual Primitives with Bundle Adjustment,
JMIV(25), No. 1, July 2006, pp. 63-78.
WWW Version. 0610 BibRef

Stewénius, H.[Henrik], Engels, C.[Christopher], Nistér, D.[David],
Recent developments on direct relative orientation,
PandRS(60), No. 4, June 2006, pp. 284-294.
WWW Version. 0610Relative orientation; Five-point method; Six-point method; Grobner basis BibRef

Stewenius, H.[Henrik], Engels, C.[Chris], Nister, D.[David],
An Efficient Minimal Solution for Infinitesimal Camera Motion,
CVPR07(1-8).
WWW Version. 0706 BibRef

Engels, C.[Chris], Stewénius, H.[Henrik], Nistér, D.[David],
Bundle Adjustment Rules,
PCV06(xx-yy).
PDF Version. 0609 BibRef

Chen, L.C.[Liang-Chien], Teo, T.A.[Tee-Ann], Liu, C.L.[Chien-Liang],
The Geometrical Comparisons of RSM and RFM for FORMOSAT-2 Satellite Images,
PhEngRS(72), No. 5, May 2006, pp. 573-580.
WWW Version. 0610A comparison of the geometric performances between the RSM (rigorous sensor model) and RFM (rational function model) for FORMOSAT-2 satellite images. RFM well behaved, similar positioning errors.o BibRef

Kim, J.S.[Jong-Sung], Hong, K.S.[Ki-Sang],
A recursive camera resectioning technique for off-line video-based augmented reality,
PRL(28), No. 7, May 2007, pp. 842-853.
WWW Version. 0703Augmented reality; Camera resectioning; Unscented particle filter BibRef

Aguilar, M.A.[Manuel A.], Aguilar, F.J.[Fernando J.], Agüera, F.[Francisco], Sánchez, J.A.[Jaime A.],
Geometric Accuracy Assessment of QuickBird Basic Imagery Using Different Operational Approaches,
PhEngRS(73), No. 12, December 2007, pp. 1321-1332.
WWW Version. 0712Geometric correction using rational functions and rigorous sensor models, and orthorectification with different DEMs of the QuickBird basic imagery for mapping applications. BibRef

Kieffer, H.H.[Hugh H.], Mullins, K.F.[Kevin F.], MacKinnon, D.J.[David J.],
Validation of the ASTER Instrument Level 1A Scene Geometry,
PhEngRS(74), No. 3, March 2008, pp. 289-302.
WWW Version. 0803An independent assessment of the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) instrument geometry. BibRef

Cui, C.H.[Chun-Hui], Yang, W.X.[Wen-Xian], Ngan, K.N.[King Ngi],
External Calibration of Multi-camera System Based on Efficient Pair-wise Estimation,
PSIVT07(497-509).
WWW Version. 0712 BibRef

Baker, H.H.[H. Harlyn], Li, Z.[Zeyu], Papadas, C.[Constantin],
Exploiting Homologies in Global Calibration of a Multi-imager Array,
3DTV07(1-4).
WWW Version. 0705 BibRef

Spiegel, M.[Michael],
Improvement of Interior and Exterior Orientation of the Three Line Camera HRSC with a Simultaneous Adjustment,
PIA07(161).
PDF Version. 0711 BibRef

Wendt, A., Dold, C.,
Estimation of Interior Orientation and Eccentricity Parameters of a Hybrid Imaging and Laser Scanning Sensor,
PanoPhot05(xx-yy).
PDF Version. 0502 BibRef

Schneider, D., Maas, H.G.[Hans-Gerd],
Integrated Bundle Adjustment with Variance Component Estimation: Fusion of Terrestrial Laser Scanner Data, Panoramic and Central Perspective Image Data,
Laser07(373).
PDF Version. 0709 BibRef
Earlier:
Combined Bundle Adjustment of Panoramic and Central Perspective Images,
PanoPhot05(xx-yy).
PDF Version. 0502 BibRef

Migita, T.[Tsuyoshi], Shakunaga, T.[Takeshi],
One-Dimensional Search for Reliable Epipole Estimation,
PSIVT06(1215-1224).
WWW Version. 0612Initializing the solution for calibration. BibRef

El-Sheimy, N.[Naser],
Addingham Bundle Adjustment,
Online2007. University Calgary.
HTML Version. Code, Bundle Adjustment. BibRef 0700

Aliaga, D.G.[Daniel G.], Zhang, J.[Ji], Boutin, M.[Mireille],
Simplifying the Reconstruction of 3D Models using Parameter Elimination,
VRML07(1-8).
WWW Version. 0710 BibRef

Zhang, J.[Jeffrey], Aliaga, D.G.[Daniel G.], Boutin, M.[Mireille], Insley, R.[Robert],
Angle Independent Bundle Adjustment Refinement,
3DPVT06(1108-1116).
WWW Version. 0606 BibRef
And:
Robust Bundle Adjustment for Structure from Motion,
ICIP06(2185-2188). 0610
WWW Version. BibRef

Peipe, J., Tecklenburg, W.,
Photogrammetric camera calibration software: A comparison,
IEVM06(xx-yy).
PDF Version. 0609 BibRef

Pflugfelder, R.[Roman], Bischof, H.[Horst],
Fundamental matrix and slightly overlapping views,
ICPR06(I: 527-530).
WWW Version. 0609 BibRef

Hou, T.B.[Ting-Bo], Zhu, F.[Feng], Shi, Z.[Zelin],
Estimation of the Fundamental Matrix Based on EV Mode,
ICPR06(I: 679-682).
WWW Version. 0609 BibRef

Riggi, F.[Frank], Toews, M.[Matthew], Arbel, T.[Tal],
Fundamental Matrix Estimation via TIP: Transfer of Invariant Parameters,
ICPR06(II: 21-24).
WWW Version. 0609 BibRef

Guilbert, N.[Nicolas], Heyden, A.[Anders],
Contraction Mapping Calibration,
ISVC05(678-683).
WWW Version. 0512Eucledian from affine projective parameters. BibRef

Michel, D.[Damien], Argyros, A.A.[Antonis A.], Lourakis, M.I.A.[Manolis I.A.],
Localizing Unordered Panoramic Images Using the Levenshtein Distance,
OMNIVIS07(1-7).
WWW Version. 0710 BibRef

Lourakis, M.I.A.[Manolis I.A.], Argyros, A.A.[Antonis A.],
Is Levenberg-Marquardt the Most Efficient Optimization Algorithm for Implementing Bundle Adjustment?,
ICCV05(II: 1526-1531).
WWW Version. 0510 BibRef

Lourakis, M.I.A.[Manolis I.A.], and Argyros, A.A.,
The Design and Implementation of a Generic Sparse Bundle Adjustment Software Package Based on the Levenberg-Marquardt Algorithm,
TR340, Institute of Computer Science - FORTH, Heraklion, Crete, Greece, August, 2004. (updated June 2006).
WWW Version. Code, Bundle Adjustment. Publicly available (GPL) C/C++ software package for generic sparse bundle adjustment based on the Levenberg-Marquardt algorithm. BibRef 0406

Tieu, K.[Kinh], Dalley, G.[Gerald], Grimson, W.E.L.[W. Eric L.],
Inference of Non-Overlapping Camera Network Topology by Measuring Statistical Dependence,
ICCV05(II: 1842-1849).
WWW Version. 0510 BibRef

Sinha, S.N., Pollefeys, M., McMillan, L.,
Camera network calibration from dynamic silhouettes,
CVPR04(I: 195-202).
IEEE Abstract. IEEE Top Reference. 0408 BibRef

Brand, M.[Matthew], Antone, M.[Matthew], Teller, S.[Seth],
Spectral Solution of Large-Scale Extrinsic Camera Calibration as a Graph Embedding Problem,
ECCV04(Vol II: 262-273).
WWW Version. 0405 BibRef

Zhang, Z.Y.[Zheng-You], Shan, Y.[Ying],
Incremental motion estimation through modified bundle adjustment,
ICIP03(II: 343-346).
IEEE Abstract. IEEE Top Reference. 0312 BibRef

Schindler, K.[Konrad], Bischof, H.[Horst],
On Robust Regression in Photogrammetric Point Clouds,
DAGM03(172-178).
HTML Version. 0310 BibRef

Foerstner, W.,
Performance Evaluation and Benchmarking of Algorithms or Systems for Calibration, Orientation and Surface Reconstruction,
BenCOS05(xx-yy).
PDF Version. 0510 BibRef

Förstner, W.[Wolfgang], Läbe, T.[Thomas],
Learning Optimal Parameters for Self-Diagnosis in a System for Automatic Exterior Orientation,
CVS03(236 ff).
HTML Version.
HTML Version. 0306 BibRef

Hartley, R.I., Kaucic, R.,
Sensitivity of Calibration to Principal Point Position,
ECCV02(II: 433 ff.).
HTML Version. 0205 BibRef

Ries, C.[Christine], Kager, H.[Helmut], Stadler, P.[Philipp],
High-Quality Geo-Referencing of GPS/IMU-Supported Multi-Spectral Airborne Scanner Data: Experiences and Results,
PCV02(B: 222). 0305 BibRef

Ono, T.[Tetsu], Hattori, S.[Susumu],
Fundamental Principles of Image Orientation Using Orthogonal Projection Model,
PCV02(B: 194). 0305 BibRef

Zong, J.[Jia],
Multi-Image Tie-Point Detection Applied to Multi-Angle Imagery from MISR,
PCV02(A: 424). 0305 BibRef

Poli, D.[Daniela],
Indirect Georeferencing of Airborne Multi-Line Array Sensors: A Simulated Case Study,
PCV02(A: 246). 0305 BibRef

Ressl, C.[Camillo],
A Minimal Set of Constraints and a Minimal Parameterization for the Trifocal Tensor,
PCV02(A: 277). 0305 BibRef

Ressl, C.[Camillo],
The Impact of Conformal Map Projections on Direct Georeferencing,
PCV02(A: 283). 0305 BibRef

Wiggenhagen, M.[Manfred],
Calibration of Digital Consumer Cameras for Photogrammetric Applications,
PCV02(B: 301). 0305 BibRef

Pinto, L.[Livio], Forlani, G.[Gianfranco],
A Single Step Calibration Procedure for INS/DGPS in Aerial Photogrammetry,
PCV02(B: 210). 0305 BibRef

Niini, I.[Ilkka],
On the Calibration of Mapvision 4D system,
PCV02(A: 225). 0305 BibRef

Honkavaara, E.[Eija], Ahokas, E.[Eero], Jaakkola, J.[Juha], Hyyppä, J.[Juha], Ilves, R.[Risto], Vilhomaa, J.[Juha],
Investigations on System Calibration of GPS/IMU and Camera for Direct Georeferencing,
PCV02(B: 85). 0305 BibRef

Cramer, M.[Michael], Stallmann, D.[Dirk],
System Calibration for Direct Georeferencing,
PCV02(A: 79). 0305 BibRef

Kim, H.J.[Hye Jin], Kim, D.S.[Dae Sung], Lee, H.S.[Hyo Sung], Kim, Y.I.[Yong Il],
A Study on the Generation of the KOMPSAT-1 RPC Model,
PCV02(B: 112). 0305 BibRef

Canterakis, N.,
Analytic Reduction of the Kruppa Equations,
DAGM02(591 ff.).
HTML Version. 0303 See also Zur Ermittlung eines Objektes aus zwei Perspektiven mit innerer Orientierung. BibRef

Ruiz, A., Lopez-de-Teruel, P.E., Garcia-Mateos, G.,
A note on principal point estimability,
ICPR02(II: 304-307).
WWW Version. 0211 BibRef

Triggs, B., McLauchlan, P., Hartley, R.I., Fitzgibbon, A.W.,
Bundle Adjustment: A Modern Synthesis,
VisionAlg99(298-372). BibRef 9900

Cornou, S., Dhome, M., Sayd, P.,
Bundle Adjustment: A Fast Method with Weak Initialisation,
BMVC02(Poster Session). 0208 BibRef

Seedahmed, G.H.[Gamal H.], Schenk, T.[Toni],
Retrieval of the Calibration Matrix from the 3-D Projective Camera Model,
VI02(282).
PDF Version. 0208 BibRef

Georgescu, B., Meer, P.[Peter],
Balanced Recovery of 3D Structure and Camera Motion from Uncalibrated Image Sequences,
ECCV02(II: 294 ff.).
HTML Version. 0205Improved initial estimation for bundle adjustment. BibRef

Kinoshita, K.[Keisuke], Lindenbaum, M.[Michael],
Camera Model Selection based on Geometric AIC,
CVPR00(II: 514-519).
IEEE Abstract. IEEE Top Reference.
WWW Version. 0005which model, type of camera BibRef

Colomina, I.[Ismael],
GPS, INS and Aerial Triangulation: What is the Best Way for the Operational Determination of Photogrammetric Image Orientation?,
ISPRSGIS99(121-130). INS is the conclusion of the paper. BibRef 9900

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Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Camera Calibration -- Stereo .