15.2.12 Camera Calibration, Lens Distortion, Aberration, Radial Distortion, Internal Parameters

Chapter Contents (Back)
Camera Calibration. Distortion. Aberration. Radial Distortion. Camera Calibration, Distortion. Lens Distortion.
See also Pushbroom Camera Calibration Issues.

Brown, D.C.,
Decentering Distortion of Lenses,
PhEng(32), No. 3, 1966, pp. 444-462. BibRef 6600

Landgrebe, D.A., Biehl, L.L., and Simmons, W.R.,
An Empirical Study of Scanner System Parameters,
GeoEl(15), No. 3, 1977, pp. 120-130. BibRef 7700

Narendra, P.M.,
Scene-Based Nonuniformity Compensation for Imaging Sensors,
PAMI(4), No. 1, January 1982, pp. 57-61. BibRef 8201

Fryer, J., and Brown, D.C.,
Lens Distortion for Close-Range Photogrammetry,
PhEngRS(52), No. 1, 1986, pp. 51-58. BibRef 8600

Tsai, R.Y.,
A Versatile Camera Calibration Technique for High-Accuracy 3D Machine Vision Metrology Using Off-the-Shelf TV Cameras and Lenses,
RA(3), No. 4, 1987, pp. 323-344. Code, Camera Calibration. Code:
HTML Version. BibRef 8700
Earlier:
An Efficient and Accurate Camera Calibration Technique for 3-D Machine Vision,
CVPR86(364-374). Lens Distortion. This was the "best" paper at the conference. Various techniques for calibration and error analysis. Use 60 Control points to derive camera parameters (position, orientation, focal length, radial lens distortion, and image scanning parameters). Compute intrinsic and extrinsic parameters using a planar or non-planar test pattern. Criticized for not using rigorous least-squares method. BibRef

Gennery, D.B.[Donald B.],
Generalized Camera Calibration Including Fish-Eye Lenses,
IJCV(68), No. 3, July 2006, pp. 239-266.
Springer DOI 0606
BibRef

Gennery, D.B.,
Camera Calibration Including Lens Distortion,
JPLD-8580, 1991. Application of rigorous least-squares techniqes (as used in photogrammetry) to computer vision. BibRef 9100

Goshtasby, A.[Ardeshir],
Correction of Image Deformation from Lens Distortion Using Bezier Patches,
CVGIP(47), No. 3, September 1989, pp. 385-394.
Elsevier DOI
See also Piecewise Linear Mapping Functions for Image Registration. BibRef 8909

Weng, J., Cohen, P., and Herniou, M.,
Camera Calibration with Distortion Models and Accuracy Evaluation,
PAMI(14), No. 10, October 1992, pp. 965-980.
IEEE DOI BibRef 9210
Earlier:
Calibration of Stereo Cameras Using a Non-Linear Distortion Model,
ICPR90(I: 246-253).
IEEE DOI 9006
Lens Distortion. CCD camera. Lens distortion models (radial and tangential distortions), derivation and use. BibRef

Nomura, Y., Sagara, M., Naruse, H., and Ide, A.,
Simple Calibration Algorithm for high-Distortion-Lens Camera,
PAMI(14), No. 11, November 1992, pp. 1095-1099.
IEEE DOI Uses a line calibration chart. BibRef 9211

Elenga, C.W.[Cornelis W.],
Apparatus for geometrical correction of a distored image,
US_Patent5,231,673, Jul 27, 1993
WWW Link. BibRef 9307

Willson, R.G., and Shafer, S.A.,
What is the Center of the Image?,
JOSA-A(11), No. 11, November 1994, pp. 2946-2955. BibRef 9411
Earlier: CVPR93(670-671).
IEEE DOI BibRef
And: CMU-CS-TR-93-122, April 1993.
PS File. Camera calibration and everything you want to know about the image center. BibRef

Shafer, S.A.,
Automation and Calibration for Robot Vision Systems,
CMU-CS-TR-88-147. May 1988. BibRef 8805

Cumani, A., Guiducci, A.,
Geometric Camera Calibration: The Virtual Camera Approach,
MVA(8), No. 6, 1995, pp. 375-384.
Springer DOI BibRef 9500

Shih, S.W.[Sheng-Wen], Hung, Y.P.[Yi-Ping], Lin, W.S.[Wei-Song],
When Should We Consider Lens Distortion in Camera Calibration,
PR(28), No. 3, March 1995, pp. 447-461.
Elsevier DOI BibRef 9503
Earlier:
Accuracy assessment on camera calibration method not considering lens distortion,
CVPR92(755-757).
IEEE DOI 0403
BibRef

Basu, A., and Licardie, S.,
Alternative Models for Fish-Eye Lenses,
PRL(16), 1995, pp. 433-441. BibRef 9500

Shah, S.[Shishir], Aggarwal, J.K.,
Intrinsic Parameter Calibration Procedure for a (High-Distortion) Fish-Eye Lens Camera with Distortion Model and Accuracy Estimation,
PR(29), No. 11, November 1996, pp. 1775-1788.
Elsevier DOI 9612
BibRef

Lalitha, L., Dutta Majumder, D.,
Fractal Based Criteria to Evaluate the Performance of Digital Image Magnification Techniques,
PRL(9), 1989, pp. 67-75. BibRef 8900

Prescott, B., McLean, G.F.,
Line-Based Correction of Radial Lens Distortion,
GMIP(59), No. 1, January 1997, pp. 39-47. 9703
BibRef

Butler, D.A., Pierson, P.K.,
A Distortion-Correction Scheme for Industrial Machine-Vision Applications,
RA(7), 1991, pp. 546-551. BibRef 9100

Swaminathan, R.[Rahul], Nayar, S.K.[Shree K.],
Nonmetric Calibration of Wide-Angle Lenses and Polycameras,
PAMI(22), No. 10, October 2000, pp. 1172-1178.
IEEE DOI 0011
BibRef
Earlier: CVPR99(II: 413-419).
IEEE DOI BibRef
And:
Non-Metric Calibration of Wide Angle Lenses,
DARPA98(1079-1084). Dealing with the larger distortions of wide angle lenses. BibRef

Park, S.W.[Seong-Woo], Hong, K.S.[Ki-Sang],
Practical Ways to Calculate Camera Lens Distortion for Real-Time Camera Calibration,
PR(34), No. 6, June 2001, pp. 1199-1206.
Elsevier DOI 0103

See also Practical self-calibration of pan-tilt cameras. BibRef

Devernay, F.[Frédéric], Faugeras, O.D.[Olivier D.],
Straight lines have to be straight,
MVA(13), No. 1, 2001, pp. 14-24.
Springer DOI Distortion of a camera. Use the fact that a straight line shold be straight. Edges, collext into polygon, find parameters of distortion model to geterate line segments. 0108
BibRef

Farid, H.[Hany], Popescu, A.C.[Alin C.],
Blind Removal of Image Non-Linearities,
ICCV01(I: 76-81).
IEEE DOI 0106
BibRef

Farid, H.[Hany], Popescu, A.C.[Alin C.],
Blind removal of lens distortion,
JOSA-A(18), No. 9, September 2001, pp. 2072-2078.
WWW Link. 0109
BibRef

Asari, V.K.[Vijayan K.], Kumar, S., Radhakrishnan, D.,
A new approach for nonlinear distortion correction in endoscopic images based on least squares estimation,
MedImg(18), No. 4, April 1999, pp. 345-354.
IEEE Top Reference. 0110
BibRef

Kybic, J., Thevenaz, P., Nirkko, A., Unser, M.,
Unwarping of unidirectionally distorted EPI images,
MedImg(19), No. 2, February 2000, pp. 80-93.
IEEE Top Reference. 0110
BibRef

Munger, P., Crelier, G.R., Peters, T.M., Pike, G.B.,
An inverse problem approach to the correction of distortion in EPI images,
MedImg(19), No. 7, July 2000, pp. 681-689.
IEEE Top Reference. 0110
BibRef

Schmithorst, V.J., Dardzinski, B.J., Holland, S.K.,
Simultaneous correction of ghost and geometric distortion artifacts in EPI using a multiecho reference scan,
MedImg(20), No. 6, June 2001, pp. 535-539.
IEEE Top Reference. 0110
BibRef

Bayro-Corrochano, E.[Eduardo], Rosenhahn, B.[Bodo],
A geometric approach for the analysis and computation of the intrinsic camera parameters,
PR(35), No. 1, January 2002, pp. 169-186.
Elsevier DOI 0111
BibRef
Earlier: A2, A1:
Computing the Intrinsic Camera Parameters Using Pascal's Theorem,
CAIP99(427-434).
Springer DOI 9909
BibRef

Jovanovic, V.M., Bull, M.A., Smyth, M.M., Zong, J.[Jia],
MISR in-flight camera geometric model calibration and georectification performance,
GeoRS(40), No. 7, July 2002, pp. 1512-1519.
IEEE Top Reference. 0210
BibRef

Ratliff, B.M.[Bradley M.], Hayat, M.M.[Majeed M.], Hardie, R.C.[Russell C.],
An algebraic algorithm for nonuniformity correction in focal-plane arrays,
JOSA-A(19), No. 9, September 2002, pp. 1737-1747.
WWW Link. 0210
BibRef

Ratliff, B.M.[Bradley M.], Hayat, M.M.[Majeed M.], Tyo, J.S.[J. Scott],
Generalized algebraic scene-based nonuniformity correction algorithm,
JOSA-A(22), No. 2, February 2005, pp. 239-249.
WWW Link. 0601
BibRef

Gregorich, D.T., Aumann, H.H.,
Verification of AIRS boresight accuracy using coastline detection,
GeoRS(41), No. 2, February 2003, pp. 298-302.
IEEE Top Reference. 0304
BibRef

Lambrigtsen, B.H., Lee, S.Y.[Sung-Yung],
Coalignment and synchronization of the AIRS instrument suite,
GeoRS(41), No. 2, February 2003, pp. 343-351.
IEEE Top Reference. 0304
BibRef

Light, D.[Don],
A Basis for Estimating Digital Camera Parameters,
PhEngRS(70), No. 3, March 2004, pp. 297-300
WWW Link. Matching the resolution of the optics with the detectors provides a sound basis for estimating the principal parameters for large digital cameras. 0403
BibRef

Yu, W.[Wonpil],
Image-based lens geometric distortion correction using minimization of average bicoherence index,
PR(37), No. 6, June 2004, pp. 1175-1187.
Elsevier DOI 0405
BibRef

Yu, W.[Wonpil], Chung, Y.[Yunkoo], Soh, J.[Jung],
Vignetting distortion correction method for high quality digital imaging,
ICPR04(III: 666-669).
IEEE DOI 0409
BibRef

Yu, W.[Wonpil], Chung, Y.[Yunkoo],
A calibration-free lens distortion correction method for low cost digital imaging,
ICIP03(I: 813-816).
IEEE DOI 0312
BibRef

Frieden, B.R.[B. Roy],
Aberration reduction by multiple relays of an incoherent image,
JOSA-A(21), No. 10, October 2004, pp. 1834-1840.
WWW Link. 0501
BibRef

Tordoff, B.J.[Ben J.], Murray, D.W.[David W.],
The impact of radial distortion on the self-calibration of rotating cameras,
CVIU(96), No. 1, October 2004, pp. 17-34.
Elsevier DOI 0409
BibRef
Earlier:
Violating Rotating Camera Geometry: The Effect of Radial Distortion on Self-calibration,
ICPR00(Vol I: 423-427).
IEEE DOI
HTML Version. 0009
Radial distortion leads to increasing errors in standard calibration. Proposed method overcomes these, but with requirements on images that are unlikely. BibRef

Xiong, X.X.[Xiao-Xiong], Che, N.Z.[Nian-Zeng], Barnes, W.L.,
Terra MODIS on-orbit spatial characterization and performance,
GeoRS(43), No. 2, February 2005, pp. 355-365.
IEEE Abstract. 0501
BibRef

Xiong, X.X.[Xiao-Xiong], Che, N.Z.[Nian-Zeng], Barnes, W.L.,
Terra MODIS On-Orbit Spectral Characterization and Performance,
GeoRS(44), No. 8, August 2006, pp. 2198-2206.
IEEE DOI 0608
BibRef

Ngo, H.T., Asari, V.K.,
A Pipelined Architecture for Real-Time Correction of Barrel Distortion in Wide-Angle Camera Images,
CirSysVideo(15), No. 3, March 2005, pp. 436-444.
IEEE Abstract. 0501
BibRef

Ahmed, M.T., Farag, A.A.,
Nonmetric calibration of camera lens distortion: Differential methods and robust estimation,
IP(14), No. 8, August 2005, pp. 1215-1230.
IEEE DOI 0508
BibRef
Earlier:
Differential Methods for Nonmetric Calibration of Camera Lens Distortion,
CVPR01(II:477-482).
IEEE Abstract. 0110
BibRef
And:
Non-metric Calibration of Camera Lens Distortion,
ICIP01(II: 157-160).
IEEE DOI 0108
BibRef

Abraham, S.[Steffen], Förstner, W.[Wolfgang],
Fish-eye-stereo calibration and epipolar rectification,
PandRS(59), No. 5, August 2005, pp. 278-288.
Elsevier DOI 0509
BibRef

Lucchese, L.[Luca],
Geometric calibration of digital cameras through multi-view rectification,
IVC(23), No. 5, 1 May 2005, pp. 517-539.
Elsevier DOI 0501
BibRef

Kannala, J.H., Brandt, S.S.,
A Generic Camera Model and Calibration Method for Conventional, Wide-Angle, and Fish-Eye Lenses,
PAMI(28), No. 8, August 2006, pp. 1335-1340.
IEEE DOI 0606
BibRef
Earlier:
A generic camera calibration method for fish-eye lenses,
ICPR04(I: 10-13).
IEEE DOI 0409
BibRef

Peer, P.[Peter], Solina, F.[Franc],
Where physically is the optical center?,
PRL(27), No. 10, 15 July 2006, pp. 1117-1121.
Elsevier DOI Camera; Optical center; Computer vision 0606
BibRef

Mallon, J.[John], Whelan, P.F.[Paul F.],
Calibration and removal of lateral chromatic aberration in images,
PRL(28), No. 1, 1 January 2007, pp. 125-135.
Elsevier DOI 0611
BibRef
Earlier:
Precise radial un-distortion of images,
ICPR04(I: 18-21).
IEEE DOI 0409
Lateral chromatic aberration; Image warping; Camera calibration BibRef

Mallon, J.[John], Whelan, P.F.[Paul F.],
Which pattern? Biasing aspects of planar calibration patterns and detection methods,
PRL(28), No. 8, 1 June 2007, pp. 921-930.
Elsevier DOI 0704
Camera calibration; Calibration patterns; Bias compensation; Lens distortion BibRef

Dunne, A.K.[Aubrey K.], Mallon, J.[John], Whelan, P.F.[Paul F.],
Efficient Generic Calibration Method for General Cameras with Single Centre of Projection,
CVIU(114), No. 2, February 2010, pp. 220-233.
Elsevier DOI 1002
BibRef
Earlier: ICCV07(1-8).
IEEE DOI 0710
BibRef
And:
Towards Dynamic Camera Calibration for Constrained Flexible Mirror Imaging,
OMNIVIS08(xx-yy). 0810
Catadioptric; Generic calibration; General model; Pose estimation BibRef

Tan, K.K., Huang, S.N., Lim, S.Y., Leow, Y.P., Liaw, H.C.,
Geometrical Error Modeling and Compensation Using Neural Networks,
SMC-C(36), No. 6, November 2006, pp. 797-809.
IEEE DOI 0611
For motion systems using a laser interferometer. BibRef

Ma, L., Chen, Y.Q., Moore, K.L.,
Analytical piecewise radial distortion model for precision camera calibration,
VISP(153), No. 4, August 2006, pp. 468-474.
WWW Link. 0705
BibRef

Hartley, R.I.[Richard I.], Kang, S.B.[Sing Bing],
Parameter-Free Radial Distortion Correction with Center of Distortion Estimation,
PAMI(29), No. 8, August 2007, pp. 1309-1321.
IEEE DOI 0707
BibRef
Earlier: ICCV05(II: 1834-1841).
IEEE DOI 0510
BibRef

Chen, Y.S.[Yi-Song], Ip, H.H.S.[Horace H.S.],
Single view metrology of wide-angle lens images,
VC(22), No. 7, July 2006, pp. 445-455.
Springer DOI 0607
BibRef

Wang, J.H.[Jian-Hua], Shi, F.H.[Fan-Huai], Zhang, J.[Jing], Liu, Y.C.[Yun-Cai],
A new calibration model of camera lens distortion,
PR(41), No. 2, February 2008, pp. 607-615.
Elsevier DOI 0711
Camera calibration; Lens distortion; Image correction BibRef

El-Melegy, M.T.[Moumen T.], Al-Ashwal, N.H.[Nagi H.],
A PDE Method to Segment Image Linear Objects with Application to Lens Distortion Removal,
ELCVIA(6), No. 2, September 2007, pp. 9-21.
DOI Link 0709
BibRef

El-Melegy, M.T.[Moumen T.], Farag, A.A.,
Nonmetric lens distortion calibration: Closed-form solutions, robust estimation and model selection,
ICCV03(554-559).
IEEE DOI 0311
BibRef

Kelly, D.P.[Damien P.], Sheridan, J.T.[John T.], Rhodes, W.T.[William T.],
Fundamental diffraction limitations in a paraxial 4-f imaging system with coherent and incoherent illumination,
JOSA-A(24), No. 7, July 2007, pp. 1911-1919.
WWW Link. 0801
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Claxton, C.D.[Christopher D.], Staunton, R.C.[Richard C.],
Measurement of the point-spread function of a noisy imaging system,
JOSA-A(25), No. 1, January 2008, pp. 159-170.
WWW Link. 0801
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Tamaki, T.[Toru],
Unified Approach to Image Distortion: D-U and U-D Models,
IEICE(E88-D), No. 5, May 2005, pp. 1086-1090.
DOI Link 0505
Dealing with image distortions, radial and change. BibRef

Tzeng, J.[Jack], Nguyen, T.Q.[Truong Q.],
Image Enhancement for Fluid Lens Camera Based on Color Correlation,
IP(18), No. 4, April 2009, pp. 729-739.
IEEE DOI 0903
Fluid lens used in surgical applications. No moving parts for zoom. Introduces distortions and blur. BibRef

Tzeng, J.[Jack], Liu, C.C.[Chun-Chen], Nguyen, T.Q.[Truong Q.],
Contourlet Domain Multiband Deblurring Based on Color Correlation for Fluid Lens Cameras,
IP(19), No. 10, October 2010, pp. 2659-2668.
IEEE DOI 1003
BibRef
Earlier:
Multi-band color image deblurring using contourlets for fluid lens camera systems,
ICIP09(713-716).
IEEE DOI 0911
BibRef

Tzeng, J.[Jack], Freund, Y.[Yoav], Nguyen, T.Q.[Truong Q.],
Using Adaboost on contourlet based image deblurring for Fluid Lens Camera Systems,
ICIP10(1173-1176).
IEEE DOI 1009
BibRef

Byröd, M.[Martin], Josephson, K.[Klas], Åström, K.[Kalle],
Fast and Stable Polynomial Equation Solving and Its Application to Computer Vision,
IJCV(84), No. 3, September 2009, pp. xx-yy.
Springer DOI 0906
BibRef

Josephson, K.[Klas], Byrod, M.[Martin],
Pose estimation with radial distortion and unknown focal length,
CVPR09(2419-2426).
IEEE DOI 0906
BibRef

Byröd, M.[Martin], Brown, M.[Matthew], Åström, K.[Karl],
Minimal Solutions for Panoramic Stitching with Radial Distortion,
BMVC09(xx-yy).
PDF File. 0909
BibRef

Kukelova, Z.[Zuzana], Byrod, M.[Martin], Josephson, K.[Klas], Pajdla, T.[Tomas], Astrom, K.[Kalle],
Fast and robust numerical solutions to minimal problems for cameras with radial distortion,
CVIU(114), No. 2, February 2010, pp. 234-244.
Elsevier DOI 1002
BibRef
Earlier: A2, A1, A3, A4, A5: CVPR08(1-8).
IEEE DOI 0806
Radial distortion calibration; Minimal problems; Grobner Basis BibRef

Kukelova, Z.[Zuzana], Pajdla, T.[Tomas],
A Minimal Solution to Radial Distortion Autocalibration,
PAMI(33), No. 12, December 2011, pp. 2410-2422.
IEEE DOI 1110
BibRef
Earlier:
Two Minimal Problems for Cameras with Radial Distortion,
OMNIVIS07(1-8).
IEEE DOI 0710
BibRef
And:
A minimal solution to the autocalibration of radial distortion,
CVPR07(1-7).
IEEE DOI 0706
Simultaneous radial distortion, epipolar geometry, and relative camera pose. Two solutions using 8 points in two images. Require determinant of the fundamental matrix to be 0. BibRef

Alvarez, L.[Luis], Gómez, L.[Luis], Sendra, J.R.[J. Rafael],
An Algebraic Approach to Lens Distortion by Line Rectification,
JMIV(35), No. 1, September 2009, pp. xx-yy.
Springer DOI 0907
BibRef

Alvarez, L.[Luis], Gomez, L.[Luis], Sendra, J.R.[J. Rafael],
Algebraic Lens Distortion Model Estimation,
IPOL(2010), No. 1, 2010, pp. xx-yy.
DOI Link 1202
Code, Lens Distortion. BibRef

Alvarez, L.[Luis], Gómez, L.[Luis], Sendra, J.R.[J. Rafael],
Accurate Depth Dependent Lens Distortion Models: An Application to Planar View Scenarios,
JMIV(39), No. 1, January 2011, pp. 75-85.
WWW Link. 1101
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Alvarez, L.[Luis], Gómez, L.[Luis], Henríquez, P.[Pedro],
Zoom Dependent Lens Distortion Mathematical Models,
JMIV(44), No. 3, November 2012, pp. 480-490.
WWW Link. 1209
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Wang, A.[Aiqi], Qiu, T.H.[Tians-Huang], Shao, L.T.[Long-Tan],
A Simple Method of Radial Distortion Correction with Centre of Distortion Estimation,
JMIV(33), No. 3, November 2009, pp. xx-yy.
Springer DOI 0909
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Ricolfe-Viala, C.[Carlos], Sanchez-Salmeron, A.J.[Antonio-Jose],
Robust metric calibration of non-linear camera lens distortion,
PR(43), No. 4, April 2010, pp. 1688-1699.
Elsevier DOI 1002
BibRef
And:
An Iterative Kalman Filter Approach to Camera Calibration,
ACIVS08(xx-yy).
Springer DOI 0810
BibRef
Earlier:
Improved Camera Calibration Method Based on a Two-Dimensional Template,
IbPRIA07(II: 420-427).
Springer DOI 0706
BibRef
Earlier:
Improving Accuracy and Confidence Interval of Camera Parameters Estimated with a Planar Pattern,
ICIP05(II: 1142-1145).
IEEE DOI 0512
BibRef
And:
Uncertainty Analysis of Camera Parameters Computed with a 3D Pattern,
CIAP05(204-211).
Springer DOI 0509
Lens distortion; Camera calibration; Metric method; Robust estimator BibRef

Ricolfe-Viala, C.[Carlos], Sanchez-Salmeron, A.J.[Antonio-Jose],
Optimal conditions for camera calibration using a planar template,
ICIP11(853-856).
IEEE DOI 1201
BibRef

Rosten, E.[Edward], Loveland, R.[Rohan],
Camera distortion self-calibration using the plumb-line constraint and minimal Hough entropy,
MVA(22), No. 1, January 2011, pp. 77-85.
WWW Link. 1101
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Rahman, T., Krouglicof, N.,
An Efficient Camera Calibration Technique Offering Robustness and Accuracy Over a Wide Range of Lens Distortion,
IP(21), No. 2, February 2012, pp. 626-637.
IEEE DOI 1201
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Podbreznik, P.[Peter], Potocnik, B.[Božidar],
Assessing the influence of temperature variations on the geometrical properties of a low-cost calibrated camera system by using computer vision procedures,
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Liu, J.B.[Jun-Bin], Wark, T.[Tim], Lakemond, R.[Ruan], Sridharan, S.[Sridha],
Self-calibration of wireless cameras with restricted degrees of freedom,
CVIU(116), No. 10, October 2012, pp. 1033-1046.
Elsevier DOI 1209
Wireless camera networks; Camera calibration; Homography; Radial distortion BibRef

Lakemond, R.[Ruan], Fookes, C.[Clinton], Sridharan, S.[Sridha],
Practical Improvements to Simultaneous Computation of Multi-view Geometry and Radial Lens Distortion,
DICTA11(524-529).
IEEE DOI 1205
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Tang, Z.W.[Zhong-Wei], von Gioi, R.G.[Rafael Grompone], Monasse, P.[Pascal], Morel, J.M.[Jean-Michel],
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JOSA-A(29), No. 10, October 2012, pp. 2134-2143.
WWW Link. 1210
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Earlier: A2, A3, A3, A1:
Lens distortion correction with a calibration harp,
ICIP11(617-620).
IEEE DOI 1201
BibRef
Earlier: A2, A3, A3, A1:
Towards high-precision lens distortion correction,
ICIP10(4237-4240).
IEEE DOI 1009
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Tang, Z.W.[Zhong-Wei], von Gioi, R.G.[Rafael Grompone], Monasse, P.[Pascal], Morel, J.M.[Jean-Michel],
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IP(26), No. 6, June 2017, pp. 2694-2704.
IEEE DOI 1705
cameras, distortion, minimisation, polynomials, camera distortion models, correction measurement, distortion modeling, inverse distortion model, nonlinear minimization, numerical problem, optical interpretation, polynomial distortion model, precision analysis, tangential distortion components, Cameras, Lenses, Nonlinear distortion, Numerical models, Optical distortion, Predistortion, Distortion measurement, camera calibration BibRef

Luhmann, T.[Thomas], Ohm, J.[Julia], Piechel, J.[Johannes], Roelfs, T.[Thorsten],
Geometric Calibration of Thermal Cameras,
PFG(2011), No. 1, 2011, pp. 5-15.
WWW Link. 1211
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Earlier:
Geometric Calibration Of Thermographic Cameras,
CloseRange10(xx-yy).
PDF File. 1006
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Bukhari, F.[Faisal], Dailey, M.N.[Matthew N.],
Automatic Radial Distortion Estimation from a Single Image,
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Earlier:
Robust Radial Distortion from a Single Image,
ISVC10(II: 11-20).
Springer DOI 1011
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Hanning, T.[Tobias],
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JMIV(45), No. 2, February 2013, pp. 138-147.
WWW Link. 1302
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Graf, S.[Simone], Hanning, T.[Tobias],
Analytically Solving Radial Distortion Parameters,
CVPR05(II: 1104-1109).
IEEE DOI 0507
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Chang, J., Kang, H., Kang, M.G.,
Correction of Axial and Lateral Chromatic Aberration With False Color Filtering,
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IEEE DOI 1302
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Yang, W., Meng, H., Ferraro, R.R., Moradi, I., Devaraj, C.,
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IEEE DOI 1303
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Aksakal, S.K.[Sultan Kocaman],
Geometric Accuracy Investigations of SEVIRI High Resolution Visible (HRV) Level 1.5 Imagery,
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Zemcík, P.[Pavel], Pribyl, B.[Bronislav], Herout, A.[Adam], Seeman, M.[Michal],
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Springer DOI 1312
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Wang, F.[Fei], Cai, Y.J.[Yang-Jian], Hoenders, B.J.[Bernhard J.],
Reduction or annihilation of aberrations of an optical system by balancing ghost-imaging technique and optimal imaging of a pure weak phase object,
JOSA-A(31), No. 1, January 2014, pp. 48-57.
DOI Link 1402
Coherent optical effects BibRef

Fazekas, A., Toth, L.,
Filtering Chromatic Aberration for Wide Acceptance Angle Electrostatic Lenses,
IP(23), No. 7, July 2014, pp. 2834-2841.
IEEE DOI 1407
Image sequences BibRef

Fazekas, Á., Daimon, H., Matsuda, H., Tóth, L.,
Filtering Chromatic Aberration for Wide Acceptance Angle Electrostatic Lenses II: Experimental Evaluation and Software-Based Imaging Energy Analyzer,
IP(25), No. 3, March 2016, pp. 1441-1450.
IEEE DOI 1602
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And: Correction: IP(25), No. 8, August 2016, pp. 3638-3638.
IEEE DOI 1608
Electron optics. Electrostatics; Filtering; Image sequences; Lenses BibRef

Heide, F.[Felix], Rouf, M.[Mushfiqur], Hullin, M.B.[Matthias B.], Labitzke, B.[Björn], Kolb, A.[Andreas], Heidrich, W.[Wolfgang],
Computational methods for aberration correction in simple lens imaging,
SPIE(Newsroom), April 18, 2014
DOI Link 1407
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Wu, Y.H.[Yi-Hong], Hu, Z.Y.[Zhan-Yi], Li, Y.F.[You-Fu],
Radial distortion invariants and lens evaluation under a single-optical-axis omnidirectional camera,
CVIU(126), No. 1, 2014, pp. 11-27.
Elsevier DOI 1407
Geometric invariant BibRef

Korneliussen, J.T., Hirakawa, K.,
Camera Processing With Chromatic Aberration,
IP(23), No. 10, October 2014, pp. 4539-4552.
IEEE DOI 1410
aberrations BibRef

Alemán-Flores, M.[Miguel], Alvarez, L.[Luis], Gomez, L.[Luis], Santana-Cedrés, D.[Daniel],
Automatic Lens Distortion Correction Using One-Parameter Division Models,
IPOL(2014), No. 2014, pp. 327-343.
DOI Link 1411
Code, Distortion Correction.
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Alemán-Flores, M.[Miguel], Alvarez, L.[Luis], Gomez, L.[Luis], Santana-Cedrés, D.[Daniel],
Wide-Angle Lens Distortion Correction Using Division Models,
CIARP13(I:415-422).
Springer DOI 1311

See also Automatic Lens Distortion Correction Using One-Parameter Division Models. BibRef

Kim, T.H.[Tae-Hwan],
Fast Barrel Distortion Correction for Wide-Angle Cameras,
IEICE(E98-D), No. 7, July 2015, pp. 1413-1416.
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Galego, R.[Ricardo], Ortega, A.[Agustin], Ferreira, R.[Ricardo], Bernardino, A.[Alexandre], Andrade-Cetto, J.[Juan], Gaspar, J.[José],
Uncertainty analysis of the DLT-Lines calibration algorithm for cameras with radial distortion,
CVIU(140), No. 1, 2015, pp. 115-126.
Elsevier DOI 1509
DLT-Lines BibRef

Kanuki, Y.[Yuta], Ohta, N.[Naoya],
Speeding Up and Performance Evaluation of a Fully Automatic Radial Distortion Compensation Algorithm for Driving Assistance Cameras,
IEICE(E98-D), No. 10, October 2015, pp. 1892-1895.
WWW Link. 1511
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Kanuki, Y.[Yuta], Ohta, N.[Naoya], Nagai, A.,
Automatic Compensation of Radial Distortion by Minimizing Entropy of Histogram of Oriented Gradients,
ACPR13(912-916)
IEEE DOI 1408
driver information systems BibRef

Santana-Cedrés, D.[Daniel], Gomez, L.[Luis], Alemán-Flores, M.[Miguel], Salgado, A.[Agustín], Esclarín, J.[Julio], Mazorra, L.[Luis], Alvarez, L.[Luis],
Invertibility and Estimation of Two-Parameter Polynomial and Division Lens Distortion Models,
SIIMS(8), No. 3, 2015, pp. 1574-1606.
DOI Link 1511

See also Iterative Optimization Algorithm for Lens Distortion Correction Using Two-Parameter Models, An. BibRef

Santana-Cedrés, D.[Daniel], Gómez, L.[Luis], Alemán-Flores, M.[Miguel], Salgado, A.[Agustín], Esclarín, J.[Julio], Mazorra, L.[Luis], Álvarez, L.[Luis],
An Iterative Optimization Algorithm for Lens Distortion Correction Using Two-Parameter Models,
IPOL(6), 2016, pp. 326-365.
DOI Link 1612
Code, Lens Distortion.
See also Invertibility and Estimation of Two-Parameter Polynomial and Division Lens Distortion Models. BibRef

Santana-Cedrés, D.[Daniel], Gomez, L.[Luis], Alemán-Flores, M.[Miguel], Salgado, A.[Agustín], Esclarín, J.[Julio], Mazorra, L.[Luis], Alvarez, L.[Luis],
Automatic correction of perspective and optical distortions,
CVIU(161), No. 1, 2017, pp. 1-10.
Elsevier DOI 1708
BibRef
Earlier: A3, A7, A2, A1, Only:
Automatic Corner Matching in Highly Distorted Images of Zhang's Calibration Pattern,
CIARP14(754-761).
Springer DOI 1411
Lens distortion BibRef

Duan, Y., Ling, X., Zhang, Y., Zhang, Z., Liu, X., Hu, K.,
A Simple and Efficient Method for Radial Distortion Estimation by Relative Orientation,
GeoRS(55), No. 12, December 2017, pp. 6840-6848.
IEEE DOI 1712
Calibration, Cameras, Estimation, Lenses, Mathematical model, Nonlinear distortion, Continuous relative orientation, vertical photography BibRef

Choi, C.W.[Chang-Won], Lee, H.[Hyungkeun], Yi, J.[Joonhwan],
An interpolation method for strong barrel lens distortion,
VC(34), No. 11, November 2018, pp. 1479-1491.
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Ronda, J.I.[José I.], Valdés, A.[Antonio],
Geometrical Analysis of Polynomial Lens Distortion Models,
JMIV(61), No. 3, March 2019, pp. 252-268.
WWW Link. 1903
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Kazasidis, O.[Orestis], Verpoort, S.[Sven], Wittrock, U.[Ulrich],
Aberration balancing using an image-sharpness metric,
JOSA-A(36), No. 8, August 2019, pp. 1418-1422.
DOI Link 1912
Diffraction limit, Fourier optics, Optical systems, Optical transfer functions, Power spectral density, Spatial frequency BibRef

Chen, G.W.[Guo-Wen], Wang, H.P.[Han-Peng], Liu, M.F.[Meng-Fei], Liao, H.[Hongen],
Hybrid camera array based calibration for computer-generated integral photography display,
JOSA-A(35), No. 9, September 2018, pp. 1567-1574.
DOI Link 1912
Three-dimensional image processing, Displays, Calibration, Camera calibration, Image processing, Image quality, Optical aberrations BibRef

Guillet, G.[Grégoire], Guillet, T.[Thomas], Ravanel, L.[Ludovic],
Camera orientation, calibration and inverse perspective with uncertainties: A Bayesian method applied to area estimation from diverse photographs,
PandRS(159), 2020, pp. 237-255.
Elsevier DOI 1912
Inverse perspective, Spatial resection, Camera calibration, Bayesian methods, Lens distortion, Digital elevation models BibRef

Liao, K., Lin, C., Zhao, Y., Gabbouj, M.,
DR-GAN: Automatic Radial Distortion Rectification Using Conditional GAN in Real-Time,
CirSysVideo(30), No. 3, March 2020, pp. 725-733.
IEEE DOI 2003
Distortion, Generators, Semantics, Estimation, Decoding, Radial distortion, conditional GANs, real-time BibRef

Pritts, J.[James], Kukelova, Z.[Zuzana], Larsson, V.[Viktor], Lochman, Y.[Yaroslava], Chum, O.[Ondrej],
Minimal Solvers for Rectifying from Radially-Distorted Scales and Change of Scales,
IJCV(128), No. 4, April 2020, pp. 950-968.
Springer DOI 2004
BibRef
Earlier: A1, A2, A3, A5, Only:
Rectification from Radially-Distorted Scales,
ACCV18(V:36-52).
Springer DOI 1906
BibRef
Earlier: A1, A2, A3, A5, Only:
Radially-Distorted Conjugate Translations,
CVPR18(1993-2001)
IEEE DOI 1812
Lenses, Cameras, Nonlinear distortion, Distortion measurement, Feature extraction, Mathematical model BibRef

de Albuquerque Azevedo, R.G., Birkbeck, N., de Simone, F., Janatra, I., Adsumilli, B., Frossard, P.,
Visual Distortions in 360° Videos,
CirSysVideo(30), No. 8, August 2020, pp. 2524-2537.
IEEE DOI 2008
Visualization, Videos, Distortion, Cameras, Pipelines, Encoding, Signal processing algorithms, Omnidirectional video, compression BibRef

Li, J., Liu, Z.,
Camera Geometric Calibration Using Dynamic Single-Pixel Illumination With Deep Learning Networks,
CirSysVideo(30), No. 8, August 2020, pp. 2550-2558.
IEEE DOI 2008
Cameras, Calibration, Optical imaging, Collimators, Deep learning, Optical sensors, Camera geometric calibration, deep learning, single pixel BibRef

Liao, K., Lin, C., Zhao, Y., Gabbouj, M.,
Distortion Rectification From Static to Dynamic: A Distortion Sequence Construction Perspective,
CirSysVideo(30), No. 11, November 2020, pp. 3870-3882.
IEEE DOI 2011
Cameras, Nonlinear distortion, Optical distortion, Task analysis, Feature extraction, Learning systems, Distortion rectification, dynamic construction BibRef

Jumbo, O.E., Asfour, S., Sayed, A.M., Abdel-Mottaleb, M.,
Correcting Higher Order Aberrations Using Image Processing,
IP(30), 2021, pp. 2276-2287.
IEEE DOI 2102
aberrations, distortion, eye, lenses, medical image processing, polynomial approximation, refractive index, vision defects, Zernike polynomials BibRef

Liao, K., Lin, C., Zhao, Y.,
A Deep Ordinal Distortion Estimation Approach for Distortion Rectification,
IP(30), 2021, pp. 3362-3375.
IEEE DOI 2103
Distortion, Cameras, Estimation, Semantics, Neural networks, Calibration, History, Distortion rectification, neural networks, ordinal distortion BibRef

Pritts, J.[James], Kukelova, Z.[Zuzana], Larsson, V.[Viktor], Lochman, Y.[Yaroslava], Chum, O.[Ondrej],
Minimal Solvers for Rectifying From Radially-Distorted Conjugate Translations,
PAMI(43), No. 11, November 2021, pp. 3931-3948.
IEEE DOI 2110
Lenses, Cameras, Distortion, Transmission line matrix methods, Geometry, Feature extraction, Parallel processing, Rectification, local features BibRef

Yu, Y.X.[Yang-Xin], Zheng, N.[Ning], Qiao, T.[Tong], Xu, M.[Ming], Wu, J.S.[Jia-Sheng],
Distinguishing between natural and recolored images via lateral chromatic aberration,
JVCIR(80), 2021, pp. 103295.
Elsevier DOI 2110
Image forensics, Recolored images detection, Lateral chromatic aberration BibRef

Lee, Y., Kim, T.,
Analysis of Geometric and Orthogonal Correction Accuracy for Cas-500 Satellite Images,
ISPRS21(B1-2021: 57-61).
DOI Link 2201
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Fan, B.[Bin], Dai, Y.C.[Yu-Chao], Zhang, Z.Y.[Zhi-Yuan], He, M.Y.[Ming-Yi],
Fast and Robust Differential Relative Pose Estimation With Radial Distortion,
SPLetters(29), 2022, pp. 294-298.
IEEE DOI 2202
Nonlinear distortion, Cameras, Optical distortion, Standards, Geometry, Mathematical models, inliers BibRef

Cao, J.S.[Jin-Shan], Zhou, N.[Nan], Shang, H.X.[Hai-Xing], Ye, Z.W.[Zhi-Wei], Zhang, Z.Q.[Zhi-Qi],
Internal Geometric Quality Improvement of Optical Remote Sensing Satellite Images with Image Reorientation,
RS(14), No. 3, 2022, pp. xx-yy.
DOI Link 2202
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Zhao, K.[Keyao], Lin, C.Y.[Chun-Yu], Liao, K.[Kang], Yang, S.R.[Shang-Rong], Zhao, Y.[Yao],
Revisiting Radial Distortion Rectification in Polar-Coordinates: A New and Efficient Learning Perspective,
CirSysVideo(32), No. 6, June 2022, pp. 3552-3560.
IEEE DOI 2206
Nonlinear distortion, Optical distortion, Cameras, Kernel, Convolution, Optical imaging, Adaptive optics, polar coordinates BibRef

Yan, X.G.[Xing-Guang], Li, J.[Jing], Yang, D.[Di], Li, J.[Jiwei], Ma, T.Y.[Tian-Yue], Su, Y.T.[Yi-Ting], Shao, J.H.[Jia-Hao], Zhang, R.[Rui],
A Random Forest Algorithm for Landsat Image Chromatic Aberration Restoration Based on GEE Cloud Platform: A Case Study of Yucatan Peninsula, Mexico,
RS(14), No. 20, 2022, pp. xx-yy.
DOI Link 2211
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Chen, S.Q.[Shi-Qi], Lin, T.[Ting], Feng, H.J.[Hua-Jun], Xu, Z.H.[Zhi-Hai], Li, Q.[Qi], Chen, Y.T.[Yue-Ting],
Computational Optics for Mobile Terminals in Mass Production,
PAMI(45), No. 4, April 2023, pp. 4245-4259.
IEEE DOI 2303
Cameras, Optical imaging, Adaptive optics, Manufacturing, Degradation, Optical sensors, Machining, Optical tolerancing, mobile ISP systems BibRef

Eboli, T.[Thomas],
Fast Chromatic Aberration Correction with 1D Filters,
IPOL(13), 2023, pp. 198-214.
DOI Link 2307
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Liebold, F.[Frank], Mader, D.[David], Sardemann, H.[Hannes], Eltner, A.[Anette], Maas, H.G.[Hans-Gerd],
A Bi-Radial Model for Lens Distortion Correction of Low-Cost UAV Cameras,
RS(15), No. 22, 2023, pp. 5283.
DOI Link 2311
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Wang, W.[Wendi], Feng, H.[Hao], Zhou, W.G.[Wen-Gang], Liao, Z.[Zhaokang], Li, H.Q.[Hou-Qiang],
Model-Aware Pre-Training for Radial Distortion Rectification,
IP(32), 2023, pp. 5764-5778.
IEEE DOI Code:
WWW Link. 2311
BibRef

Hubmer, S.[Simon], Sherina, E.[Ekaterina], Ramlau, R.[Ronny], Pircher, M.[Michael], Leitgeb, R.[Rainer],
Subaperture-Based Digital Aberration Correction for Optical Coherence Tomography: A Novel Mathematical Approach,
SIIMS(16), No. 4, 2023, pp. 1857-1885.
DOI Link 2312
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Li, Y.N.[Yue-Nan], Wu, J.[Jin], Shi, Z.[Zetao],
Lightweight Neural Network for Enhancing Imaging Performance of Under-Display Camera,
CirSysVideo(34), No. 1, January 2024, pp. 71-84.
IEEE DOI 2401
Phone camera embedded in the display. Eliminate artiacts of the design. BibRef

Ren, Z.H.[Zhi-Hao], Su, Y.[Ya],
Self-supervised video distortion correction algorithm based on iterative optimization,
PR(148), 2024, pp. 110114.
Elsevier DOI 2402
Distortion rectification, Iterative optimization, Frames alignment, Affine transformation BibRef

Janos, I.[Igor], Benesova, W.[Wanda],
Improving radial lens distortion correction with multi-task learning,
PRL(183), 2024, pp. 147-154.
Elsevier DOI Code:
WWW Link. 2406
Radial distortion, Camera calibration, Sports, Football, Multi-task learning BibRef

Luo, J.[Jun], Nie, Y.F.[Yun-Feng], Ren, W.Q.[Wen-Qi], Cao, X.C.[Xiao-Chun], Yang, M.H.[Ming-Hsuan],
Correcting Optical Aberration via Depth-Aware Point Spread Functions,
PAMI(46), No. 8, August 2024, pp. 5541-5555.
IEEE DOI 2407
Optical imaging, Adaptive optics, Optical filters, Lenses, Image restoration, Optical diffraction, Feature extraction, image simulation BibRef


Gong, J.[Jin], Yang, R.[Runzhao], Zhang, W.[Weihang], Suo, J.[Jinli], Dai, Q.H.[Qiong-Hai],
A Physics-Informed Low-Rank Deep Neural Network for Blind and Universal Lens Aberration Correction,
CVPR24(24861-24870)
IEEE DOI 2410
Photography, Computational modeling, Artificial neural networks, Transforms, Cameras, Optical imaging, Adaptive optics BibRef

Müller, P.[Patrick], Braun, A.[Alexander], Keuper, M.[Margret],
Classification robustness to common optical aberrations,
AROW23(3634-3645)
IEEE DOI 2401
BibRef

Wolf, D.W.[Dominik Werner], Ulrich, M.[Markus], Kapoor, N.[Nikhil],
Sensitivity analysis of AI-based algorithms for autonomous driving on optical wavefront aberrations induced by the windshield,
BRAVO23(4102-4111)
IEEE DOI 2401
BibRef

Xian, W.Q.[Wen-Qi], Božic, A.[Aljaž], Snavely, N.[Noah], Lassner, C.[Christoph],
Neural Lens Modeling,
CVPR23(8435-8445)
IEEE DOI 2309

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Eboli, T.[Thomas], Morel, J.M.[Jean-Michel], Facciolo, G.[Gabriele],
Fast Two-Step Blind Optical Aberration Correction,
ECCV22(VI:693-708).
Springer DOI 2211
BibRef

Zhu, F.[Fushun], Zhao, S.[Shan], Wang, P.[Peng], Wang, H.[Hao], Yan, H.[Hua], Liu, S.C.[Shuai-Cheng],
Semi-Supervised Wide-Angle Portraits Correction by Multi-Scale Transformer,
CVPR22(19657-19666)
IEEE DOI 2210

WWW Link. Training, Deep learning, Codes, Transformers, Distortion, Pattern recognition, Computational photography, Low-level vision BibRef

Li, N.Z.[Nian-Zyi], Thapa, S.[Simron], Whyte, C.[Cameron], Reed, A.[Albert], Jayasuriya, S.[Suren], Ye, J.[Jinwei],
Unsupervised Non-Rigid Image Distortion Removal via Grid Deformation,
ICCV21(2502-2512)
IEEE DOI 2203
Image coding, Supervised learning, Scattering, Imaging, Media, Distortion, Computational photography, Transfer/Low-shot/Semi/Unsupervised Learning BibRef

Li, X.[Xiu], Suo, J.[Jinli], Zhang, W.[Weihang], Yuan, X.[Xin], Dai, Q.H.[Qiong-Hai],
Universal and Flexible Optical Aberration Correction Using Deep-Prior Based Deconvolution,
ICCV21(2593-2601)
IEEE DOI 2203
Integrated optics, Training, Adaptation models, Optical computing, Optical imaging, Geometrical optics, Adaptive optics, BibRef

Leotta, M.J.[Matthew J.], Russell, D.[David], Matrai, A.[Andrew],
On the Maximum Radius of Polynomial Lens Distortion,
WACV22(2374-2382)
IEEE DOI 2202
Closed-form solutions, Databases, Computational modeling, Virtual and Augmented Reality BibRef

Hu, X.P.[Xiao-Ping], Zhou, C.[Cong], Kang, Y.[Yu], Zhou, X.[Xiao], Mou, X.G.[Xin-Gang],
A High-Precision Lens Distortion Correction Method for Vision Measurement,
ICIVC21(317-321)
IEEE DOI 2112
Geometry, Machine vision, Measurement uncertainty, Imaging, Distortion, Manufacturing, Distortion measurement, correction parameters BibRef

Olsson, C.[Carl], Larsson, V.[Viktor], Kahl, F.[Fredrik],
A Quasiconvex Formulation for Radial Cameras,
CVPR21(14571-14580)
IEEE DOI 2111
Geometry, Solid modeling, Structure from motion, Tools, Cameras, Distortion BibRef

Tan, J.[Jing], Zhao, S.[Shan], Xiong, P.F.[Peng-Fei], Liu, J.Y.[Jiang-Yu], Fan, H.Q.[Hao-Qiang], Liu, S.C.[Shuai-Cheng],
Practical Wide-Angle Portraits Correction with Deep Structured Models,
CVPR21(3497-3505)
IEEE DOI 2111
Perspective distortions. Measurement, Deep learning, Distortion, Cameras, Robustness BibRef

Oskarsson, M.[Magnus],
Fast Solvers for Minimal Radial Distortion Relative Pose Problems,
OmniCV21(3663-3672)
IEEE DOI 2109
Geometry, Estimation, Tools, Distortion, Cameras BibRef

Lochman, Y.[Yaroslava], Dobosevych, O.[Oles], Hryniv, R.[Rostyslav], Pritts, J.[James],
Minimal Solvers for Single-View Lens-Distorted Camera Auto-Calibration,
WACV21(2886-2895)
IEEE DOI 2106
Refining, Cameras, Calibration, Noise measurement, Task analysis BibRef

Örnhag, M.V.[Marcus Valtonen], Persson, P.[Patrik], Wadenbäck, M.[Mårten], Åström, K.[Kalle], Heyden, A.[Anders],
Efficient Real-Time Radial Distortion Correction for UAVs,
WACV21(1750-1759)
IEEE DOI 2106
Measurement units, Optical distortion, Distortion, Cameras, Real-time systems BibRef

Shi, Y.J.[Yong-Jie], Tong, X.[Xin], Wen, J.[Jingsi], Zhao, H.[He], Ying, X.H.[Xiang-Hua], Zha, H.B.[Hong-Bin],
Position-aware and Symmetry Enhanced GAN for Radial Distortion Correction,
ICPR21(1701-1708)
IEEE DOI 2105
Convolution, Transforms, Distortion, Generative adversarial networks, Feature extraction, Generators BibRef

Li, K.Y.[Kun-Yi], Jin, X.[Xin],
Chromatic Aberration Correction Using Cross-channel Prior in Shearlet Domain,
ACCV20(II:102-117).
Springer DOI 2103
BibRef

Detchev, I., Lichti, D.,
Calibrating A Lens with A 'local' Distortion Model,
ISPRS20(B2:765-769).
DOI Link 2012
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Zhao, H., Shi, Y., Tong, X., Ying, X., Zha, H.,
A Simple Yet Effective Pipeline For Radial Distortion Correction,
ICIP20(878-882)
IEEE DOI 2011
Nonlinear distortion, Estimation, Training, Pipelines, Lenses, Integrated circuits, Radial distortion correction, Deep learning BibRef

Huang, K., Ziauddin, S., Zand, M., Greenspan, M.,
One Shot Radial Distortion Correction by Direct Linear Transformation,
ICIP20(473-477)
IEEE DOI 2011
Nonlinear distortion, Lenses, Optimization, Estimation, Cameras, Distortion measurement, radial distortion correction, direct linear transformation BibRef

Lin, Y.[Yukai], Larsson, V.[Viktor], Geppert, M.[Marcel], Kukelova, Z.[Zuzana], Pollefeys, M.[Marc], Sattler, T.[Torsten],
Infrastructure-based Multi-camera Calibration Using Radial Projections,
ECCV20(XVI: 327-344).
Springer DOI 2010
BibRef

Zhao, H., Ying, X., Shi, Y., Tong, X., Wen, J., Zha, H.,
RDCFace: Radial Distortion Correction for Face Recognition,
CVPR20(7718-7727)
IEEE DOI 2008
Face, Distortion, Face recognition, Lenses, Image edge detection, Cameras, Robustness BibRef

Eder, M., Shvets, M., Lim, J., Frahm, J.,
Tangent Images for Mitigating Spherical Distortion,
CVPR20(12423-12431)
IEEE DOI 2008
Image resolution, Distortion, Kernel, Standards, Image representation, Task analysis BibRef

Llanos, B., Yang, Y.,
Simultaneous Demosaicing and Chromatic Aberration Correction through Spectral Reconstruction,
CRV20(17-24)
IEEE DOI 2006
computational photography, demosaicing, color correction, hyperspectral imaging BibRef

Nikonorov, A., Evdokimova, V., Petrov, M., Yakimov, P., Bibikov, S., Yuzifovich, Y., Skidanov, R., Kazanskiy, N.,
Deep Learning-Based Imaging using Single-Lens and Multi-Aperture Diffractive Optical Systems,
CLI19(3969-3977)
IEEE DOI 2004
Lenses, Optical distortion, Distortion, Image reconstruction, Image color analysis, Optical imaging, Deep learning, color correction BibRef

Larsson, V., Sattler, T., Kukelova, Z., Pollefeys, M.,
Revisiting Radial Distortion Absolute Pose,
ICCV19(1062-1071)
IEEE DOI 2004
cameras, computational geometry, image motion analysis, pose estimation, pinhole projections, image measurements, Calibration BibRef

Meißner, H.[Henry], Cramer, M.[Michael], Reulke, R.[Ralf],
Evaluation of Structures and Methods for Resolution Determination of Remote Sensing Sensors,
PSIVT19(59-69).
Springer DOI 2003
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Lopez, M.[Manuel], Mari, R.[Roger], Gargallo, P.[Pau], Kuang, Y.[Yubin], Gonzalez-Jimenez, J.[Javier], Haro, G.[Gloria],
Deep Single Image Camera Calibration With Radial Distortion,
CVPR19(11809-11817).
IEEE DOI 2002
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Li, X.Y.[Xiao-Yu], Zhang, B.[Bo], Sander, P.V.[Pedro V.], Liao, J.[Jing],
Blind Geometric Distortion Correction on Images Through Deep Learning,
CVPR19(4850-4859).
IEEE DOI 2002
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Kukelova, Z.[Zuzana], Larsson, V.[Viktor],
Radial Distortion Triangulation,
CVPR19(9673-9681).
IEEE DOI 2002
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Przybilla, H.J., Gerke, M., Dikhoff, I., Ghassoun, Y.,
Investigations On The Geometric Quality of Cameras for UAV Applications Using The High Precision UAV Test Field Zollern Colliery,
UAV-g19(531-538).
DOI Link 1912
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Ikokou, G.B., Smit, J.,
Camera Calibration With Irrational Radial Distortion Model With Analytical Solutions,
EuroCOW-M3DMaN19(1663-1666).
DOI Link 1912
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Ikokou, G.B., Smit, J.,
Hyperbolic Distortion Model for Radial Distortion Correction,
EuroCOW-M3DMaN19(1667-1671).
DOI Link 1912
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Kadnichansky, S.A., Kurkov, M.B., Kurkov, V.M., Chibunichev, A.G., Trubina, L.K.,
Results of Researches On Photogrammetric Calibration of The Sony Cyber-Shot DSC-RX1RM2 Camera,
Optical3D19(73-77).
DOI Link 1912
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Lichti, D.D., Jarron, D., Shahbazi, M., Helmholz, P., Radovanovic, R.,
Investigation Into The Behaviour And Modelling of Chromatic Aberrations In Non-metric Digital Cameras,
Optical3D19(99-106).
DOI Link 1912
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Chang, Y., Bailey, D., Le Moan, S.,
Lens distortion correction by analysing peak shape in Hough transform space,
IVCNZ17(1-6)
IEEE DOI 1902
distortion, edge detection, Hough transforms, photographic lenses, lens magnification, image quality, Image edge detection BibRef

Fasogbon, P., Fan, L.,
Generic calibration of cameras with non-parallel optical elements,
ICPR18(1875-1881)
IEEE DOI 1812
calibration, cameras, image reconstruction, lenses, optical distortion, pose estimation, generic calibration, Calibration BibRef

Shi, Y., Zhang, D., Wen, J., Tong, X., Ying, X., Zha, H.,
Radial Lens Distortion Correction by Adding a Weight Layer with Inverted Foveal Models to Convolutional Neural Networks,
ICPR18(1-6)
IEEE DOI 1812
Nonlinear distortion, Lenses, Computational modeling, Pattern recognition, Cameras BibRef

Sun, Z., Ozay, M., Zhang, Y., Liu, X., Okatani, T.,
Feature Quantization for Defending Against Distortion of Images,
CVPR18(7957-7966)
IEEE DOI 1812
Quantization (signal), Feature extraction, Training, Convolution, Robustness, Nonlinear distortion BibRef

Helou, M.E., Dümbgen, F., Siisstrunk, S.,
AAM: AN Assessment Metric of Axial Chromatic Aberration,
ICIP18(2486-2490)
IEEE DOI 1809
Lenses, Measurement, Active appearance model, Cameras, Image edge detection, Standards, Image color analysis, chromatic aberration blur BibRef

Huang, Q., Li, Y., Chen, L., Zhong, X., Suo, J., Ma, Z., Yue, T., Cao, X.,
Multispectral focal stack acquisition using a chromatic aberration enlarged camera,
ICIP17(1627-1631)
IEEE DOI 1803
Cameras, Focusing, Image color analysis, Image reconstruction, Lenses, Optical imaging, Multispectral light field acquisition, local linear transformation BibRef

Helou, M.E., Sadeghipoor, Z., Süsstrunk, S.,
Correlation-based deblurring leveraging multispectral chromatic aberration in color and near-infrared joint acquisition,
ICIP17(1402-1406)
IEEE DOI 1803
Agriculture, Cameras, Color, Correlation, Image color analysis, Lenses, Refractive index, Joint color-NIR imaging, chromatic aberration, spectral-spatial correlation BibRef

Sun, T., Peng, Y., Heidrich, W.,
Revisiting Cross-Channel Information Transfer for Chromatic Aberration Correction,
ICCV17(3268-3276)
IEEE DOI 1802
aberrations, cameras, image colour analysis, image resolution, lenses, optical design techniques, Optical refraction BibRef

Bergamasco, F., Cosmo, L., Gasparetto, A., Albarelli, A., Torsello, A.,
Parameter-Free Lens Distortion Calibration of Central Cameras,
ICCV17(3867-3875)
IEEE DOI 1802
calibration, cameras, distortion, image sensors, lenses, stereo image processing, central cameras, Optical imaging BibRef

Spitschan, B., Ostermann, J.,
Estimation of radial distortion using local spectra of planar textures,
MVA17(472-477)
DOI Link 1708
Calibration, Cameras, Estimation, Lenses, Nonlinear distortion, Optical, distortion BibRef

Li, Y.L.[Yong-Lu], Cai, Y.H.[Ying-Hao], Wen, D.Y.[Da-Yong], Yang, Y.P.[Yi-Ping],
Optimization of radial distortion self-calibration for structure from motion from uncalibrated UAV images,
ICPR16(3721-3726)
IEEE DOI 1705
Cameras, Distortion, Estimation, Global Positioning System, Image reconstruction, Optimization, Unmanned, aerial, vehicles BibRef

Rong, J.P.[Jiang-Peng], Huang, S.[Shiyao], Shang, Z.Y.[Ze-Yu], Ying, X.H.[Xiang-Hua],
Radial Lens Distortion Correction Using Convolutional Neural Networks Trained with Synthesized Images,
ACCV16(III: 35-49).
Springer DOI 1704
BibRef

Li, W.[Wei], Huang, W.T.[Wen-Ting], Breier, M.[Matthias], Merhof, D.[Dorit],
Have we underestimated the power of image undistortion?,
ICIP16(2946-2950)
IEEE DOI 1610
Cameras BibRef

Sasaki, T., Baba, M.,
Optical distortion correction for eyeglasses-type wearable device using multi-mirror array,
ICIP16(1309-1313)
IEEE DOI 1610
Animation BibRef

Andrade, J., Karam, L.J.,
Robust radial distortion correction based on alternate optimization,
ICIP16(2956-2960)
IEEE DOI 1610
Computational modeling BibRef

Nishimura, M.[Mai], Nobuhara, S.[Shohei], Matsuyama, T.[Takashi], Shimizu, S.[Shinya], Fujii, K.[Kensaku],
A Linear Generalized Camera Calibration from Three Intersecting Reference Planes,
ICCV15(2354-2362)
IEEE DOI 1602
distortions by unknown refraction and reflection processes. BibRef

Benligiray, B.[Burak], Topal, C.[Cihan],
Lens Distortion Rectification Using Triangulation Based Interpolation,
ISVC15(II: 35-44).
Springer DOI 1601
BibRef

Mei, X.[Xiang], Yang, S.[Sen], Rong, J.P.[Jiang-Peng], Ying, X.H.[Xiang-Hua], Huang, S.Y.[Shi-Yao], Zha, H.B.[Hong-Bin],
Radial lens distortion correction using cascaded one-parameter division model,
ICIP15(3615-3619)
IEEE DOI 1512
Camera calibration BibRef

Yue, T.[Tao], Suo, J.[Jinli], Wang, J.[Jue], Cao, X.[Xun], Dai, Q.H.[Qiong-Hai],
Blind optical aberration correction by exploring geometric and visual priors,
CVPR15(1684-1692)
IEEE DOI 1510
BibRef

Mosleh, A.[Ali], Green, P.[Paul], Onzon, E.[Emmanuel], Begin, I.[Isabelle], Langlois, J.M.P.[J.M. Pierre],
Camera intrinsic blur kernel estimation: A reliable framework,
CVPR15(4961-4968)
IEEE DOI 1510
BibRef

Lee, T.Y.[Tung-Ying], Chang, T.S.[Tzu-Shan], Lai, S.H.[Shang-Hong],
Correcting radial and perspective distortion by using face shape information,
FG15(1-8)
IEEE DOI 1508
face recognition BibRef

Heller, J.[Jan], Henrion, D.[Didier], Pajdla, T.[Tomáš],
Stable Radial Distortion Calibration by Polynomial Matrix Inequalities Programming,
ACCV14(I: 307-321).
Springer DOI 1504
BibRef

Ying, X.H.[Xiang-Hua], Mei, X.[Xiang], Yang, S.[Sen], Wang, G.W.[Gan-Wen], Rong, J.P.[Jiang-Peng], Zha, H.B.[Hong-Bin],
Imposing Differential Constraints on Radial Distortion Correction,
ACCV14(I: 384-398).
Springer DOI 1504
BibRef

Chen, J.H.[Jian-Hui], Benzeroual, K., Allison, R.S.,
Robust homography for real-time image un-distortion,
IC3D13(1-8)
IEEE DOI 1503
image sensors BibRef

Ying, X.H.[Xiang-Hua], Mei, X.[Xiang], Yang, S.[Sen], Wang, G.[Ganwen], Zha, H.B.[Hong-Bin],
Radial distortion correction from a single image of a planar calibration pattern using convex optimization,
ICIP14(3440-3443)
IEEE DOI 1502
Calibration BibRef

Mélykuti, B., Kruck, E.J.,
Camera Calibration with Radial Variance Component Estimation,
LandImaging14(253-256).
DOI Link 1411
BibRef

Reznicek, J.,
Method for Measuring Lens Distortion by Using Pinhole Lens,
CloseRange14(509-515).
DOI Link 1411
BibRef

Wu, C.C.[Chang-Chang],
Critical Configurations for Radial Distortion Self-Calibration,
CVPR14(25-32)
IEEE DOI 1409
Critical configuraiton;radial distortion self-calibration BibRef

Jiang, F.Y.[Fang-Yuan], Kuang, Y.B.[Yu-Bin], Solem, J.E.[Jan Erik], Åström, K.[Kalle],
A Minimal Solution to Relative Pose with Unknown Focal Length and Radial Distortion,
ACCV14(II: 443-456).
Springer DOI 1504
BibRef

Kuang, Y.B.[Yu-Bin], Solem, J.E.[Jan Erik], Kahl, F.[Fredrik], Astrom, K.[Kalle],
Minimal Solvers for Relative Pose with a Single Unknown Radial Distortion,
CVPR14(33-40)
IEEE DOI 1409
minimal solver;radial distortion BibRef

Kumar, A.[Avinash], Ahuja, N.[Narendra],
On the Equivalence of Moving Entrance Pupil and Radial Distortion for Camera Calibration,
ICCV15(2345-2353)
IEEE DOI 1602
BibRef
Earlier:
Non-frontal Camera Calibration Using Focal Stack Imagery,
ICPR14(202-207)
IEEE DOI 1412
BibRef
And:
Generalized Radial Alignment Constraint for Camera Calibration,
ICPR14(184-189)
IEEE DOI 1412
BibRef
And:
Generalized Pupil-centric Imaging and Analytical Calibration for a Non-frontal Camera,
CVPR14(3970-3977)
IEEE DOI 1409
Apertures; analytical; calibration; center of radial distortion; pupil-centric; Lenses BibRef

Rudakova, V.[Victoria], Monasse, P.[Pascal],
Camera Matrix Calibration Using Circular Control Points and Separate Correction of the Geometric Distortion Field,
CRV14(195-202)
IEEE DOI 1406
Calibration BibRef

Rudakova, V.[Victoria], Monasse, P.[Pascal],
Precise Correction of Lateral Chromatic Aberration in Images,
PSIVT13(12-22).
Springer DOI 1402
BibRef

Schmid, S.[Sönke], Jiang, X.Y.[Xiao-Yi], Schäfers, K.[Klaus],
High-Precision Lens Distortion Correction Using Smoothed Thin Plate Splines,
CAIP13(II:432-439).
Springer DOI 1311
BibRef

Halder, K.K.[Kalyan Kumar], Tahtali, M.[Murat], Anavatti, S.G.[Sreenatha G.],
An Improved Restoration Method for Non-Uniformly Warped Images Using Optical Flow Technique,
DICTA13(1-6)
IEEE DOI 1402
BibRef
And:
High Precision Restoration Method for Non-uniformly Warped Images,
ACIVS13(60-67).
Springer DOI 1311
Gaussian noise BibRef

Gadermayr, M.[Michael], Uhl, A.[Andreas], Vécsei, A.[Andreas],
Feature Extraction with Intrinsic Distortion Correction in Celiac Disease Imagery: No Need for Rasterization,
MCV13(196-204).
Springer DOI 1405
BibRef
Earlier:
Distortion Adaptive Image Classification: An Alternative to Barrel-Type Distortion Correction,
ISVC13(II:465-474).
Springer DOI 1311
BibRef
And:
Barrel-Type Distortion Compensated Fourier Feature Extraction,
ISVC13(I:50-59).
Springer DOI 1310
BibRef

Brito, J.H.[José Henrique], Angst, R.[Roland], Köser, K.[Kevin], Pollefeys, M.[Marc],
Radial Distortion Self-Calibration,
CVPR13(1368-1375)
IEEE DOI 1309
Center of Distortion; Epipolar Curve; Radial Distortion; Self-calibration BibRef

Brito, J.H.[José Henrique], Angst, R.[Roland], Köser, K.[Kevin], Zach, C.[Christopher], Branco, P.[Pedro],
Unknown Radial Distortion Centers in Multiple View Geometry Problems,
ACCV12(IV:136-149).
Springer DOI 1304
BibRef

Cai, J.H.[Jin-Hai], Miklavcic, S.,
Automatic curve selection for lens distortion correction using Hough transform energy,
WACV13(455-460).
IEEE DOI 1303
BibRef

Simpkins, J.[Jonathan], Stevenson, R.L.[Robert L.],
Mapping measurable quantities of point-spread function observations to Seidel aberration coefficients,
ICIP12(369-372).
IEEE DOI 1302
BibRef

El-Melegy, M.T.[Moumen T.], Farag, A.A.[Aly A.],
Can lens distortion be calibrated from an image of a smooth, textureless Lambertian surface?,
ICIP12(321-324).
IEEE DOI 1302
BibRef

Hirsch, M.[Michael], Schölkopf, B.[Bernhard],
Self-Calibration of Optical Lenses,
ICCV15(612-620)
IEEE DOI 1602
Adaptive optics BibRef

Schuler, C.J.[Christian J.], Hirsch, M.[Michael], Harmeling, S.[Stefan], Schölkopf, B.[Bernhard],
Blind Correction of Optical Aberrations,
ECCV12(III: 187-200).
Springer DOI 1210
BibRef

Luczak, A.[Adam], Maákowiak, S.[SLawomir], Karwowski, D.[Damian], Grajek, T.[Tomasz],
A Large Barrel Distortion in an Acquisition System for Multifocal Images Extraction,
ICCVG12(164-171).
Springer DOI 1210
BibRef

Matsuoka, R., Asonuma, K., Takahashi, G., Danjo, T., Hirana, K.,
Evaluation of Correction Methods of Chromatic Aberration In Digital Camera Images,
AnnalsPRS(I-3), No. 2012, pp. 49-55.
DOI Link 1209
BibRef

Speyerer, E.J., Wagner, R.V., Robinson, M.S.,
Geometric Calibration Of The Clementine Uvvis Camera Using Images Acquired By The Lunar Reconnaissance Orbiter,
ISPRS16(B4: 497-501).
DOI Link 1610
BibRef

Speyerer, E.J., Wagner, R.V., Robinson, M.S., Humm, D.C., Becker, K., Anderson, J., Thomas, P.,
In-flight Geometric Calibration of The Lunar Reconnaissance Orbiter Camera,
ISPRS12(XXXIX-B4:511-516).
DOI Link 1209
BibRef

Wagner, R.V., Speyerer, E.J., Burns, K.N., Danton, J., Robinson, M.S.,
Revised Coordinates for Apollo Hardware,
ISPRS12(XXXIX-B4:517-521).
DOI Link 1209
BibRef

Gehrke, S.,
Combined Geometric/radiometric Point Cloud Matching for Shear Analysis,
ISPRS12(XXXIX-B3:103-108).
DOI Link 1209
For line scan camera BibRef

Schuler, C.J.[Christian J.], Hirsch, M.[Michael], Harmeling, S.[Stefan], Scholkopf, B.[Bernhard],
Non-stationary correction of optical aberrations,
ICCV11(659-666).
IEEE DOI 1201
High resolution with imperfect optics. Encode aberrations as psf and correct the image. BibRef

Lee, T.Y.[Tung-Ying], Chang, T.S.[Tzu-Shan], Lai, S.H.[Shang-Hong], Liu, K.C.[Kai-Che], Wu, H.S.[Hurng-Sheng],
Wide-angle distortion correction by Hough transform and gradient estimation,
VCIP11(1-4).
IEEE DOI 1201
BibRef

Rahbar, K.[Kambiz], Faez, K.[Karim],
Blind correction of lens aberration using Zernike moments,
ICIP11(861-864).
IEEE DOI 1201
BibRef

Zhang, Z.D.[Zheng-Dong], Liang, X.[Xiao], Ma, Y.[Yi],
Unwrapping low-rank textures on generalized cylindrical surfaces,
ICCV11(1347-1354).
IEEE DOI 1201
BibRef

Zhang, Z.D.[Zheng-Dong], Matsushita, Y.[Yasuyuki], Ma, Y.[Yi],
Camera calibration with lens distortion from low-rank textures,
CVPR11(2321-2328).
IEEE DOI 1106
BibRef

Fry, J.[Jonathan], Pusateri, M.A.[Michael A.],
A system and method for auto-correction of first order lens distortion,
AIPR10(1-4).
IEEE DOI 1010
BibRef

Tavakoli, H.R.[Hamed Rezazadegan], Pourreza, H.R.[Hamid Reza],
Automated Center of Radial Distortion Estimation, Using Active Targets,
ACCV09(II: 325-334).
Springer DOI 0909

See also Camera parameters estimation in soccer scenes on the basis of points at infinity. BibRef

Li, Z.H.[Zhen-Hong], Wu, H.Z.[Hui-Zhong],
A Cropping Robust Geometric Distortion Correcting Algorithm for Watermarked Image Based on SIFT,
CISP09(1-4).
IEEE DOI 0910
BibRef

Ma, W.J.[Wen-Juan], Liu, Y.C.[Yun-Cai],
A Curve-Fitting Method for Correcting Radial Distortion,
CISP09(1-4).
IEEE DOI 0910
BibRef

Garibotto, G.B.[Giovanni B.],
A New Optical Distortion Model for Multi-camera Calibration,
AVSBS09(508-513).
IEEE DOI 0909
BibRef

Fujiki, J.[Jun], Hino, H.[Hideitsu], Usami, Y.[Yumi], Akaho, S.[Shotaro], Murata, N.[Noboru],
Self-Calibration of Radially Symmetric Distortion by Model Selection,
ICPR10(1812-1815).
IEEE DOI 1008
BibRef

Hino, H.[Hideitsu], Usami, Y.[Yumi], Fujiki, J.[Jun], Akaho, S.[Shotaro], Murata, N.[Noboru],
Calibration of Radially Symmetric Distortion by Fitting Principal Component,
CAIP09(149-156).
Springer DOI 0909
BibRef

Brauers, J.[Johannes], Aach, T.[Til],
Geometric Multispectral Camera Calibration,
SCIA09(119-127).
Springer DOI 0906
BibRef
Earlier:
Longitudinal aberrations caused by optical filters and their compensation in multispectral imaging,
ICIP08(525-528).
IEEE DOI 0810

See also Multispectral Filter-Wheel Cameras: Geometric Distortion Model and Compensation Algorithms. BibRef

Swaminathan, R.[Rahul], Wu, A.[Ao], Dong, H.Y.[Hao-Yuan],
Depth from Distortions,
OMNIVIS08(xx-yy). 0810
Explore how depth is encoded by distortions. BibRef

Gasparini, S.[Simone], Sturm, P.F.[Peter F.], Barreto, J.P.[Joao P.],
Plane-based calibration of central catadioptric cameras,
ICCV09(1195-1202).
IEEE DOI 0909
BibRef

Barreto, J.P.[Joao P.], Roquette, J.[Jose], Sturm, P.F.[Peter F.], Fonseca, F.[Fernando],
Automatic Camera Calibration Applied to Medical Endoscopy,
BMVC09(xx-yy).
PDF File. 0909
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Santos, J.M.[J. Miranda], Barreto, J.P.[João P.], Menezes, P.[Paulo], Fonseca, F.[Fernando],
Ray-based Calibration of Rigid Medical Endoscopes,
OMNIVIS08(xx-yy). 0810
BibRef

Srinivasan, T.P., Islam, B., Singh, S.K.[Sanjay K.], Krishna, B.G.[B. Gopala], Srivastava, P.K.,
In-flight Geometric Calibration: An experience with CARTOSAT-1 and CARTOSAT-2,
ISPRS08(B1: 83 ff).
PDF File. 0807
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Yastikli, N., Toth, C., Brzezinska, D.,
Multi Sensor Airborne Systems: The Potential for In Situ Sensor Calibration,
ISPRS08(B1: 89 ff).
PDF File. 0807
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Seo, D.C.[Doo Chun], Yang, J.Y.[Ji Yeon], Lee, D.H.[Dong Han], Song, J.H.[Jeong Heon], Lim, H.S.[Hyo Suk],
KOMPSAT-2 Direct Sensor Modeling and Geometric Calibration/Validation,
ISPRS08(B1: 47 ff).
PDF File. 0807
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Bujnak, M.[Martin], Kukelova, Z.[Zuzana], Pajdla, T.[Tomas],
Robust Focal Length Estimation by Voting in Multi-view Scene Reconstruction,
ACCV09(I: 13-24).
Springer DOI 0909
BibRef

Bujnak, M.[Martin], Kukelova, Z.[Zuzana], Pajdla, T.[Tomas],
3D reconstruction from image collections with a single known focal length,
ICCV09(1803-1810).
IEEE DOI 0909
BibRef
Earlier:
A general solution to the P4P problem for camera with unknown focal length,
CVPR08(1-8).
IEEE DOI 0806
BibRef

Frank, O., Katz, R., Tisse, C.L., Durrant-Whyte, H.F.,
Camera calibration for miniature, low-cost, wide-angle imaging systems,
BMVC07(xx-yy).
PDF File. 0709
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Moeller, B., Posch, S.,
Identifying Lens Distortions in Image Registration by Learning from Examples,
BMVC07(xx-yy).
PDF File. 0709
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Ding, Y.Y.[Yuan-Yuan], Yu, J.Y.[Jing-Yi],
Multiperspective Distortion Correction Using Collineations,
ACCV07(I: 95-105).
Springer DOI 0711
BibRef

Tao, G.Z.[Guo-Zhi], He, R.J.[Ren-Jie], Poonawalla, A.H.[Aziz H.], Narayana, P.A.[Ponnada A.],
The Correction of EPI-induced Geometric Distortions and Their Evaluation,
ICIP07(VI: 225-228).
IEEE DOI 0709
BibRef

Webster, C.B.[Christopher B.], Reeves, S.J.[Stanley J.],
Radial Deblurring with FFTs,
ICIP07(I: 101-104).
IEEE DOI 0709
BibRef

Brun, X.[Xavier], Goulette, F.[Francois],
Modeling and Calibration of Coupled Fish-Eye CCD Camera and Laser Range Scanner for Outdoor Environment Reconstruction,
3DIM07(320-327).
IEEE DOI 0708
BibRef

Chu, X.Q.[Xin-Qi], Ng, T.T.[Tian-Tsong], Pahwa, R.S.[Ramanpreet S.], Quek, T.Q.S.[Tony Q.S.], Huang, T.S.[Thomas S.],
Compressive Inverse Light Transport,
BMVC11(xx-yy).
HTML Version. 1110
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Ng, T.T.[Tian-Tsong], Pahwa, R.S.[Ramanpreet S.], Bai, J.[Jiamin], Quek, T.Q.S.[Tony Q.S.], Tan, K.H.[Kar-Han],
Radiometric compensation using stratified inverses,
ICCV09(1889-1894).
IEEE DOI 0909
BibRef

Ng, T.T.[Tian-Tsong], Chang, S.F.[Shih-Fu], Tsui, M.P.[Mao-Pei],
Using Geometry Invariants for Camera Response Function Estimation,
CVPR07(1-8).
IEEE DOI 0706
BibRef

Bräuer-Burchardt, C.[Christian], Kühmstedt, P.[Peter], Notni, G.[Gunther],
Error Compensation by Sensor Re-calibration in Fringe Projection Based Optical 3D Stereo Scanners,
CIAP11(II: 363-373).
Springer DOI 1109
BibRef

Bräuer-Burchardt, C.[Christian], Kühmstedt, P.[Peter], Notni, G.[Gunther],
Combination of Air- and Water-Calibration for a Fringe Projection Based Underwater 3D-Scanner,
CAIP15(II:49-60).
Springer DOI 1511
BibRef

Bräuer-Burchardt, C.[Christian], Kühmstedt, P.[Peter], Notni, G.[Gunther],
Calibration of Stereo 3D Scanners with Minimal Number of Views Using Plane Targets and Vanishing Points,
CAIP15(II:61-72).
Springer DOI 1511
BibRef

Bräuer-Burchardt, C., Heinze, M., Schmidt, I., Kühmstedt, P., Notni, G.,
Compact Handheld Fringe Projection Based Underwater 3D-Scanner,
Underwater15(33-39).
DOI Link 1508
BibRef

Bräuer-Burchardt, C.[Christian], Munkelt, C.[Christoph], Heinze, M.[Matthias], Kühmstedt, P.[Peter], Notni, G.[Gunther],
Using Geometric Constraints to Solve the Point Correspondence Problem in Fringe Projection Based 3D Measuring Systems,
CIAP11(II: 265-274).
Springer DOI 1109
BibRef
Earlier:
Fringe Code Reduction for 3D Measurement Systems Using Epipolar Geometry,
PCVIA10(A:192).
PDF File. 1009
BibRef
Earlier:
Phase Unwrapping in Fringe Projection Systems Using Epipolar Geometry,
ACIVS08(xx-yy).
Springer DOI 0810
BibRef
Earlier: A1, A3, A2, A4, A5:
Distance Dependent Lens Distortion Variation in 3D Measuring Systems Using Fringe Projection,
BMVC06(I:327).
PDF File. 0609
BibRef

Bräuer-Burchardt, C.[Christian],
A New Methodology for Determination and Correction of Lens Distortion in 3D Measuring Systems Using Fringe Projection,
DAGM05(200).
Springer DOI 0509
BibRef
Earlier:
A Simple New Method for Precise Lens Distortion Correction of Low Cost Camera Systems,
DAGM04(570-577).
Springer DOI 0505
BibRef

Brauer-Burchardt, C., Voss, K.,
Automatic correction of weak radial lens distortion in single views of urban scenes using vanishing points,
ICIP02(III: 865-868).
IEEE DOI 0210
BibRef
Earlier:
A New Algorithm to Correct Fish-eye- and Strong Wide-angle-lens-distortion from Single Images,
ICIP01(I: 225-228).
IEEE DOI 0108
BibRef

Luhmann, T., Hastedt, H., Tecklenburg, W.,
Modelling of chromatic aberration for high precision photogrammetry,
IEVM06(xx-yy).
PDF File. 0609
BibRef

van den Heuvel, F.A., Verwaal, R., Beers, B.,
Calibration of fisheye camera systems and the reduction of chromatic aberration,
IEVM06(xx-yy).
PDF File. 0609
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Matsuoka, R., Sudo, N., Yokotsuka, H., Sone, M.,
Experiment on precision of camera calibration of non-metric digital cameras,
IEVM06(xx-yy).
PDF File. 0609
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Matsuoka, R.J.[Ryu-Ji], Fukue, K.[Kiyonari], Cho, K.[Kohei], Shimoda, H.[Haruhisa], Matsumae, Y.[Yoshiaki],
Numerical Simulation on Evaluating Calibration Results of Non-Metric Digital Camera,
PIA05(xx-yy).
PDF File. 0509
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Matsuoka, R., Sudo, N., Yokotsuka, H., Sone, M.,
Experiment on parameter selection of image distortion model,
IEVM06(xx-yy).
PDF File. 0609
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Jung, H.G.[Ho Gi], Lee, Y.H.[Yun Hee], Yoon, P.J.[Pal Joo], Kim, J.H.[Jai-Hie],
Radial Distortion Refinement by Inverse Mapping-Based Extrapolation,
ICPR06(I: 675-678).
IEEE DOI 0609
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Jaynes, C.O.[Christopher O.], Steele, R.M.[Robert M.],
Monitoring and Correction of Geometric Distortion in Projected Displays,
US_Patent7,119,833, October 10, 2006
WWW Link. BibRef 0610
Earlier: A2, A1 Insert as A2: Webb, S., WSCG02(429).
HTML Version. 0209
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Steele, R.M.[R. Matt], Jaynes, C.O.[Christopher O.],
Overconstrained Linear Estimation of Radial Distortion and Multi-view Geometry,
ECCV06(I: 253-264).
Springer DOI 0608
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Strand, R., Hayman, E.,
Correcting Radial Distortion by Circle Fitting,
BMVC05(xx-yy).
HTML Version. 0509
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Barreto, J.P.[Joao P.], Daniilidis, K.[Kostas],
Fundamental Matrix for Cameras with Radial Distortion,
ICCV05(I: 625-632).
IEEE DOI 0510
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Yu, J.Y.[Jing-Yi], McMillan, L.[Leonard],
Multiperspective Projection and Collineation,
ICCV05(I: 580-587).
IEEE DOI 0510
Transformations from warped (e.g. shaped mirrors) mappings to other mappings. Camera distortions. BibRef

Zollner, H.[Helmut], Sablatnig, R.[Robert],
A Method for Determining Geometrical Distortion of off-the-Shelf Wide-Angle Cameras,
DAGM05(224).
Springer DOI 0509
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Smadja, L., Benosman, R., Devars, J.,
Cylindrical sensor calibration using lines,
ICIP04(III: 1851-1854).
IEEE DOI 0505
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Torres, J., Menendez, J.M.,
A practical algorithm to correct geometrical distortion of image acquisition cameras,
ICIP04(IV: 2451-2454).
IEEE DOI 0505
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Cucchiara, R., Grana, C., Prati, A., Vezzani, R.,
A hough transform-based method for radial lens distortion correction,
CIAP03(182-187).
IEEE DOI 0310
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Swaminathan, R., Grossberg, M.D., Nayar, S.K.,
A perspective on distortions,
CVPR03(II: 594-601).
IEEE DOI 0307
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Beauchemin, S.S.[Steven S.], Bajcsy, R.[Ruzena],
Modelling and Removing Radial and Tangential Distortions in Spherical Lenses,
WTRCV01(1). 0103
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Crosby, F.,
Geometric correction through complex interpolation,
ICIP02(III: 361-364).
IEEE DOI 0210
BibRef

Toczyski, T.[Tomasz], Skoneczny, S.[Slawomir],
Scanner Sequence Compensation,
CAIP01(451 ff.).
Springer DOI 0210
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Tian, H., Srikanthan, T., Asari, K.V., Lam, S.K.,
Study on the effect of object to camera distance on polynomial expansion coefficients in barrel distortion correction,
Southwest02(255-259).
IEEE Top Reference. 0208
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Fitzgibbon, A.W.,
Simultaneous Linear Estimation of Multiple View Geometry and Lens Distortion,
CVPR01(I:125-132).
IEEE DOI 0110
Lens Distortion.
See also impact of radial distortion on the self-calibration of rotating cameras, The. BibRef

Aggarwal, M.[Manoj], Ahuja, N.[Narendra],
Camera Center Estimation,
ICPR00(Vol I: 876-880).
IEEE DOI 0009
BibRef

Aggarwal, M.[Manoj], Ahuja, N.[Narendra],
Estimating Sensor Orientation in Cameras,
ICPR00(Vol I: 896-899).
IEEE DOI 0009
BibRef

Tomasi, C., Zhang, J.,
How to rotate a camera,
CIAP99(606-611).
IEEE DOI 9909
How to place the camera on the rotating device so the centers align. BibRef

Smith, P.W.[Philip W.], Johnson, K.B.[Keith B.], Abidi, M.A.[Mongi A.],
Efficient Techniques for Wide-Angle Stereo Vision Using Surface Projection Models,
CVPR99(I: 113-118).
IEEE DOI Account for the effects of wide-angle lenses in the matching. BibRef 9900

Smith, P.W., Elstrom, M.D.,
Automatic feature correspondence for scene reconstruction,
3DIM99(463-472).
IEEE DOI 9910
For pose estimation to claibrate or map textures. BibRef

Shivaram, G., Seetharaman, G.,
A new technique for finding the optical center of cameras,
ICIP98(II: 167-171).
IEEE DOI 9810
BibRef

Marik, R.[Radek], Petrou, M.[Maria], and Kittler, J.V.[Josef V.],
Compensation of the Systematic Errors of the CCD Camera,
SCIA97(xx-yy)
HTML Version. 9705
BibRef

Zhang, Z.,
On the Epipolar Geometry Between Two Images with Lens Distortion,
ICPR96(I: 407-411).
IEEE DOI 9608
(INRIA, F)
PS File. BibRef

Devernay, F.[Frederic], and Faugeras, O.D.[Olivier D.],
Automatic Calibration and Removal of Distortion from Scenes of Structured Environments,
SPIE(2567), San Diego CA, July 1995, pp. 62-72. Autocalibration. The algorithm consists of edge extraction, polygonal approximation with a large tolerance, and finding the parameters of distortion model that best transform these edges to segments. Overcomes the pin hole limitation of most models.
PS File. BibRef 9507

Stevenson, D.[Daniel], Fleck, M.M.[Margaret M.],
Robot Aerobics: Four Easy Steps to a More Flexible Calibration,
ICCV95(34-39).
IEEE DOI Calibration using a single point (light spot), Lens distortion.
PS File. BibRef 9500

Stein, G.P.[Gideon P.],
Lens Distortion Calibration Using Point Correspondences,
CVPR97(602-608).
IEEE DOI 9704
BibRef
And: MIT AI Memo-1595, December 1996.
WWW Link. Parameters to limit distortions. BibRef

Stein, G.P.[Gideon P.],
Accurate Internal Camera Calibration Using Rotation, with Analysis of Sources of Error,
ICCV95(230-236).
IEEE DOI BibRef 9500
Earlier:
Internal Camera Calibration Using Rotation and Geometric Shapes,
MIT AI-TR-1426, February 1993.
WWW Link. BibRef

Remy, S., Dhome, M., Daucher, N., Lapreste, J.T.,
Estimating the radial distortion of an optical system; effect on a localization process,
ICIP94(II: 997-1001).
IEEE DOI 9411
BibRef

Bani-Hashemi, A.,
Finding the aspect-ratio of an imaging system,
CVPR91(122-126).
IEEE DOI 0403
BibRef

Gremban, K.D., Thorpe, C.E., Kanade, T.,
Geometric Camera Calibration Using Systems of Linear Equations,
DARPA88(820-825). BibRef 8800

Chapter on Active Vision, Camera Calibration, Mobile Robots, Navigation, Road Following continues in
Pushbroom Camera Calibration Issues .


Last update:Nov 26, 2024 at 16:40:19