11.14.3.6.6 Object Removal, Inpainting After Removing Objects

Chapter Contents (Back)
Inpainting. Object Removal. See also Inpainting, Filling Holes, Fixing Problems, Missing Data. See also Shadow Detection and Extraction. See also Cloud Detection and Extraction.

Criminisi, A., Perez, P., Toyama, K.,
Region Filling and Object Removal by Exemplar-Based Image Inpainting,
IP(13), No. 9, September 2004, pp. 1200-1212.
IEEE DOI 0409
BibRef
Earlier:
Object removal by exemplar-based inpainting,
CVPR03(II: 721-728).
IEEE DOI 0307
BibRef

Criminisi, A., Blake, A.,
The SPS algorithm: patching figural continuity and transparency by split-patch search,
CVPR04(I: 342-349).
IEEE DOI 0408
BibRef

Berestov, A.L.[Alexander L.],
Detection and removal of image occlusion errors,
US_Patent6,865,289, Mar 8, 2005
WWW Link. BibRef 0503

Kokaram, A.C., Collis, B., Robinson, S.,
Automated rig removal with Bayesian motion interpolation,
VISP(152), No. 4, August 2005, pp. 407-414.
DOI Link 0512
Remove signs of support apparatus after filming. BibRef

Hsu, H.J., Wang, J.F., Liao, S.C.,
A Hybrid Algorithm With Artifact Detection Mechanism for Region Filling After Object Removal From a Digital Photograph,
IP(16), No. 6, June 2007, pp. 1611-1622.
IEEE DOI 0706
BibRef

Maalouf, A., Carre, P., Augereau, B., Fernandez-Maloigne, C.,
A Bandelet-Based Inpainting Technique for Clouds Removal From Remotely Sensed Images,
GeoRS(47), No. 7, July 2009, pp. 2363-2371.
IEEE DOI 0906
BibRef

McCloskey, S.[Scott], Langer, M.S.[Michael S.], Siddiqi, K.[Kaleem],
Removal of Partial Occlusion from Single Images,
PAMI(33), No. 3, March 2011, pp. 647-654.
IEEE DOI 1102
BibRef
Earlier:
Removing Partial Occlusion from Blurred Thin Occluders,
ICPR10(4400-4403).
IEEE DOI 1008
BibRef
Earlier:
Automated Removal of Partial Occlusion Blur,
ACCV07(I: 271-281).
Springer DOI 0711
BibRef
Earlier:
Seeing Around Occluding Objects,
ICPR06(I: 963-966).
IEEE DOI 0609
By modeling object radiance. BibRef

McCloskey, S.[Scott],
Masking Light Fields to Remove Partial Occlusion,
ICPR14(2053-2058)
IEEE DOI 1412
Apertures BibRef

Langer, M.S.[Michael S.],
Surface Visibility Probabilities in 3D Cluttered Scenes,
ECCV08(I: 401-412).
Springer DOI 0810
BibRef

Bruni, V.[Vittoria], Crawford, A.J.[Andrew J.], Kokaram, A.C.[Anil C.], Vitulano, D.[Domenico],
Semi-transparent blotches removal from sepia images exploiting visibility laws,
SIViP(7), No. 1, January 2013, pp. 11-26.
WWW Link. 1301
BibRef
Earlier:
Digital Removal of Blotches with Variable Semi-transparency Using Visibility Laws,
BVAI07(254-263).
Springer DOI 0710
BibRef
And: A2, A1, A3, A4:
Multi-Scale Semi-Transparent Blotch Removal on Archived Photographs using Bayesian Matting Techniques and Visibility Laws,
ICIP07(I: 561-564).
IEEE DOI 0709
BibRef

Lin, C.H., Tsai, P.H., Lai, K.H., Chen, J.Y.,
Cloud Removal From Multitemporal Satellite Images Using Information Cloning,
GeoRS(51), No. 1, January 2013, pp. 232-241.
IEEE DOI 1301
BibRef

Lin, C.H.[Chao-Hung], Lai, K.H.[Kang-Hua], Chen, Z.B.[Zhi-Bin], Chen, J.Y.[Jyun-Yuan],
Patch-Based Information Reconstruction of Cloud-Contaminated Multitemporal Images,
GeoRS(52), No. 1, January 2014, pp. 163-174.
IEEE DOI 1402
clouds BibRef

Shih, C.W.[Cho-Wei], Lai, T.H.[Tsung-Hsuan], Chu, H.C.[Hui-Chuan], Chen, Y.M.[Yuh-Min],
Image completion using prediction concept via support vector regression,
MVA(24), No. 4, May 2013, pp. 753-768.
Springer DOI 1304
Image completion, Support vector regression, Structure prediction, Image inpainting BibRef

Guillemot, C.[Christine], Turkan, M.[Mehmet], Le Meur, O.[Olivier], Ebdelli, M.[Mounira],
Object removal and loss concealment using neighbor embedding methods,
SP:IC(28), No. 10, 2013, pp. 1405-1419.
Elsevier DOI 1312
BibRef
Earlier: A4, A1, A3, Only:
Examplar-based video inpainting with motion-compensated neighbor embedding,
ICIP12(1737-1740).
IEEE DOI 1302
Image inpainting BibRef

Lorenzi, L., Melgani, F., Mercier, G.,
Missing-Area Reconstruction in Multispectral Images Under a Compressive Sensing Perspective,
GeoRS(51), No. 7, 2013, pp. 3998-4008.
IEEE DOI 1307
Biological cells; Clouds; Genetic algorithms; Cloud removal; compressive sensing (CS); genetic algorithm (GA); missing data BibRef

Mu, Y., Liu, W., Yan, S.,
Video De-Fencing,
CirSysVideo(24), No. 7, July 2014, pp. 1111-1121.
IEEE DOI 1407
Cameras BibRef

Yang, C.K.[Chuan-Kai], Yeh, Y.C.[Yu-Chih],
Stain removal in 2D images with globally varying textures,
SIViP(8), No. 7, October 2014, pp. 1373-1382.
WWW Link. 1410
BibRef

Liang, Z.S.[Zao-Shan], Yang, G.[Gaobo], Ding, X.L.[Xiang-Ling], Li, L.[Leida],
An efficient forgery detection algorithm for object removal by exemplar-based image inpainting,
JVCIR(30), No. 1, 2015, pp. 75-85.
Elsevier DOI 1507
Image forensics BibRef

Jonna, S.[Sankaraganesh], Nakka, K.K.[Krishna K.], Khasare, V.S.[Vrushali S.], Sahay, R.R.[Rajiv R.], Kankanhalli, M.S.[Mohan S.],
Detection and removal of fence occlusions in an image using a video of the static/dynamic scene,
JOSA-A(33), No. 10, October 2016, pp. 1917-1930.
DOI Link 1610
BibRef
Earlier: A3, A4, A5, Only:
Seeing through the fence: Image de-fencing using a video sequence,
ICIP13(1351-1355)
IEEE DOI 1402
Image processing. Belief propagation BibRef

Windrim, L., Ramakrishnan, R., Melkumyan, A., Murphy, R.J.,
A Physics-Based Deep Learning Approach to Shadow Invariant Representations of Hyperspectral Images,
IP(27), No. 2, February 2018, pp. 665-677.
IEEE DOI 1712
Atmospheric modeling, Cameras, Geometry, Hyperspectral imaging, Lighting, Sensors, Autoencoders, Illumination invariance, unsupervised feature learning BibRef

Windrim, L., Melkumyan, A., Murphy, R.J., Chlingaryan, A., Ramakrishnan, R.,
Pretraining for Hyperspectral Convolutional Neural Network Classification,
GeoRS(56), No. 5, May 2018, pp. 2798-2810.
IEEE DOI 1805
Computer vision, Hyperspectral imaging, Robot sensing systems, Training, Image classification, neural networks, spectral analysis, spectroscopy BibRef

Khalid, M.[Madiha], Yousaf, M.M.[Muhammad Murtaza], Murtaza, K.[Kashif], Sarwar, S.M.[Syed Mansoor],
Image de-fencing using histograms of oriented gradients,
SIViP(12), No. 6, September 2018, pp. 1173-1180.
Springer DOI 1808
Remove regular or near-regular fence-like patterns from an image. BibRef


Yang, X.Y.[Xiao-Yi], Gousseau, Y.[Yann], Maître, H.[Henri], Tendero, Y.[Yohann],
A Fast Algorithm for Occlusion Detection and Removal,
ICIP18(2905-2909)
IEEE DOI 1809
Image color analysis, Image sequences, Image reconstruction, Robustness, Cameras, Shape, Image reconstruction, non-linear filtering BibRef

Jonna, S.[Sankaraganesh], Nakka, K.K.[Krishna K.], Sahay, R.R.[Rajiv R.],
Deep Learning Based Fence Segmentation and Removal from an Image Using a Video Sequence,
VSeg16(III: 836-851).
Springer DOI 1611
BibRef

Tiefenbacher, P., Sirch, M., Rigoll, G.,
Mono camera multi-view diminished reality,
WACV16(1-8)
IEEE DOI 1606
Remove objects without making obvious. BibRef

Pratihar, S., Bhowmick, P., Sural, S., Mukhopadhyay, J.,
Removal of hand-drawn annotation lines from document images by digital-geometric analysis and inpainting,
NCVPRIPG13(1-4)
IEEE DOI 1408
document image processing BibRef

Yu, X.G.[Xin-Guo], Song, W.[Wu], Cheng, J.[Jun], Qiu, B.[Bo], He, B.[Bin],
An Automatic Timestamp Replanting Algorithm for Panorama Video Surveillance,
PSIVT13(162-171).
Springer DOI 1402
BibRef

Yan, B.[Bo], Gao, Y.[Yiqi], Sun, K.[Kairan], Yang, B.[Bo],
Efficient seam carving for object removal,
ICIP13(1331-1335)
IEEE DOI 1402
Educational institutions BibRef

Park, M.W.[Min-Woo], Brocklehurst, K.[Kyle], Collins, R.T.[Robert T.], Liu, Y.X.[Yan-Xi],
Image De-fencing Revisited,
ACCV10(IV: 422-434).
Springer DOI 1011
Remove fences, lattices. BibRef

Vetter, S.[Sebastian], Grzegorzek, M.[Marcin], Paulus, D.[Dietrich],
Wavelet-Based Inpainting for Object Removal from Image Series,
DAGM10(343-352).
Springer DOI 1009
BibRef

Yang, J.[Jun], Zhu, S.J.[Shi-Jiao],
Removing Blindness Shadows from Image Based on Its Points Calculation in High Dimensional Space,
CISP09(1-5).
IEEE DOI 0910
BibRef

Whyte, O.[Oliver], Sivic, J.[Josef], Zisserman, A.[Andrew],
Get Out of my Picture! Internet-based Inpainting,
BMVC09(xx-yy).
PDF File. 0909
BibRef

Brand, M.[Matthew],
Image and Video Retargetting by Darting,
ICIAR09(33-42).
Springer DOI 0907
Analogy of tailor's darts. To fit image to reshaped frame. More what is removed than adding info. BibRef

Pnevmatikakis, E.A.[Eftychios A.], Maragos, P.[Petros],
An inpainting system for automatic image structure-texture restoration with text removal,
ICIP08(2616-2619).
IEEE DOI 0810
BibRef

Eastwood, B.[Brian], Taylor, R.M.[Russell M.],
Occlusion Removal in Video Microscopy,
CAIP07(125-132).
Springer DOI 0708
BibRef

Wu, J.Y.[Ji-Ying], Ruan, Q.Q.[Qiu-Qi],
Object Removal By Cross Isophotes Exemplar-based Inpainting,
ICPR06(III: 810-813).
IEEE DOI 0609
BibRef

Herley, C.,
Automatic Occlusion Removal from Minimum Number of Images,
ICIP05(II: 1046-1049).
IEEE DOI 0512
BibRef

Fu, H.[Haoying], Zha, H.Y.[Hong-Yuan], Barlow, J.[Jesse],
Efficient Block Noise Removal Based on Nonlinear Manifolds,
ICCV05(I: 549-556).
IEEE DOI 0510
Noise forms contiguous blocks. Remove it (e.g. glasses). BibRef

Tan, P.[Ping], Lin, S., Quan, L.[Long], Shum, H.Y.[Heung-Yeung],
Highlight removal by illumination-constrained inpainting,
ICCV03(164-169).
IEEE DOI 0311
BibRef

Chapter on 3-D Object Description and Computation Techniques, Surfaces, Deformable, View Generation, Video Conferencing continues in
Inpainting, Inpainting Range Images, Range, Depth Data .


Last update:Nov 17, 2018 at 09:12:27