5.3.16.1 Deinterlacing, De-Interlacing

Chapter Contents (Back)
Image Restoration. Deinterlace.

Wang, F.M.[Feng-Ming], Anastassiou, D.[Dimitris], Netravali, A.N.[Arun N.],
Time-recursive deinterlacing for IDTV and pyramid coding,
SP:IC(2), No. 3, October 1990, pp. 365-374.
Elsevier DOI 0001
Motion compensation; deinterlacing; block matching; HDTV; IDTV; pyramid coding BibRef

Cariolaro, G., Rinaldo, R., Tomba, L.,
A bidimensional model of line-shuffling,
SP:IC(2), No. 3, October 1990, pp. 291-304.
Elsevier DOI 0001
High Definition Television; HDTV; shuffling; compatible HDTV BibRef

Jensen, K., Anastassiou, D.,
Digitally assisted deinterlacing for EDTV,
CirSysVideo(3), No. 2, April 1993, pp. 99-106.
IEEE Top Reference. 0206
BibRef

Zaccarin, A.[André], Liu, B.[Bede],
Block motion compensated coding of interlaced sequences using adaptively deinterlaced fields,
SP:IC(5), No. 5-6, December 1993, pp. 473-485.
Elsevier DOI 0001
Adaptive deinterlacing; motion compensated coding; interlaced sequences; video coding
See also New fast algorithms for the estimation of block motion vectors. BibRef

Tremblay, M.P., Zaccarin, A.,
Transmission of the color information using quad-trees and segmentation-based approaches for the compression of color images with limited palette,
ICIP94(III: 967-971).
IEEE DOI 9411
BibRef

Orchard, M.T.[Michael T.], Katsaggelos, A.K.[Aggelos K.],
Backward motion compensation for interlaced HDTV,
SP:IC(5), No. 5-6, December 1993, pp. 487-501.
Elsevier DOI 0001
Motion compensation; interlaced HDTV; pel-recursive motion estimation BibRef

Kovacevic, J., Safranek, R.J., Yeh, E.M.,
Deinterlacing by Successive Approximation,
IP(6), No. 2, February 1997, pp. 339-344.
IEEE DOI 9703
BibRef

Hartwig, S.[Stephan],
On the performance bounds of motion-compensated deinterlacing,
SP:IC(10), No. 4, September 1997, pp. 291-302.
Elsevier DOI BibRef 9709

Sezan, M.I.[M. Ibrahim], Patti, A.J.[Andrew J.],
Adaptive, global-motion compensated deinterlacing of sequential video fields with post processing,
US_Patent5,682,205, Oct 28, 1997
WWW Link. BibRef 9710

Thomas, G.[Graham],
A comparison of motion-compensated interlace-to-progressive conversion methods,
SP:IC(12), No. 3, June 1998, pp. 209-229.
Elsevier DOI BibRef 9806

Bozdagi, G.[Gozde],
System and method for motion compensated de-interlacing of video frames,
US_Patent5,784,115, Jul 21, 1998
WWW Link. BibRef 9807

Busko, N.[Nicholas], Grantham, H.C.[H. Craig], Tourville, M.J.[Michael J.], Martin, H.L.[H. Lee],
Method for eliminating temporal and spacial distortion from interlaced video signals,
US_Patent5,903,319, May 11, 1999
WWW Link. BibRef 9905

Vandendorpe, L., Cuvelier, L.,
Statistical Properties of Coded Interlaced and Progressive Image Sequences,
IP(8), No. 6, June 1999, pp. 749-761.
IEEE DOI BibRef 9906

Vandendorpe, L., Cuvelier, L., Maison, B., Queluz, P., Delogne, P.,
Motion-compensated conversion from interlaced to progressive formats,
SP:IC(6), No. 3, June 1994, pp. 193-211.
Elsevier DOI BibRef 9406

Beuker, R.A., Shah, I.A.,
Analysis of interlaced video signals and its applications,
IP(3), No. 5, September 1994, pp. 501-512.
IEEE DOI 0402
BibRef

Swan, P.L.[Philip L.],
System and method for reconstructing noninterlaced captured content for display on a progressive screen,
US_Patent6,055,018, Apr 25, 2000
WWW Link. BibRef 0004

Li, R., Zeng, B., Liou, M.L.,
Reliable Motion Detection/Compensation for Interlaced Sequences and Its Applications to Deinterlacing,
CirSysVideo(10), No. 1, February 2000, pp. 23.
IEEE Top Reference. 0003
BibRef

Martins, B.[Bo], Forchhammer, S.,
A unified approach to restoration, deinterlacing and resolution enhancement in decoding MPEG-2 video,
CirSysVideo(12), No. 9, September 2002, pp. 803-811.
IEEE Top Reference. 0209
BibRef

Yang, S.J.[Seung-Joon], Jung, Y.Y.[You-Young], Lee, Y.H.[Young Ho], Park, R.H.[Rae-Hong],
Motion Compensation Assisted Motion Adaptive Interlaced-to-Progressive Conversion,
CirSysVideo(14), No. 9, September 2004, pp. 1138-1148.
IEEE Abstract. 0409
BibRef
Earlier: ICIP03(II: 909-912).
IEEE DOI 0312
BibRef

Yang, S.J.[Seung-Joon], Lee, Y.H.[Young-Ho], Lee, S.H.[Sung Hee], Park, R.H.[Rae-Hong],
Pattern matching assisted motion estimation and motion vector histogram analysis for interlaced-to-progressive conversion,
ICIP02(III: 365-368).
IEEE DOI 0210
BibRef

Wang, D., Vincent, A., Blanchfield, P.,
Hybrid De-Interlacing Algorithm Based on Motion Vector Reliability,
CirSysVideo(15), No. 8, August 2005, pp. 1019-1025.
IEEE DOI 0508
BibRef

Ishida, T., Muramatsu, S., Kikuchi, H.,
Motion-JPEG2000 Codec Compensated for Interlaced Scanning Videos,
IP(14), No. 12, December 2005, pp. 2179-2191.
IEEE DOI 0512
BibRef
Earlier: A2, A1, A3:
Perfect reconstruction deinterlacer banks for field scalable video compression,
ICIP04(IV: 2279-2282).
IEEE DOI 0505
BibRef

Chang, Y.L.[Yu-Lin], Lin, S.F.[Shyh-Feng], Chen, C.Y.[Ching-Yeh], Chen, L.G.[Liang-Gee],
Video de-interlacing by adaptive 4-field global/local motion compensated approach,
CirSysVideo(15), No. 12, December 2005, pp. 1569-1582.
IEEE DOI 0601
BibRef

Biswas, M., Kumar, S.[Sanjeev], Nguyen, T.Q.[Truong Q.],
Performance Analysis of Motion-Compensated De-Interlacing Systems,
IP(15), No. 9, August 2006, pp. 2596-2609.
IEEE DOI 0608
BibRef

Ballester, C., Bertalmio, B., Caselles, V., Garrido, L., Marques, A., Ranchin, F.,
An Inpainting- Based Deinterlacing Method,
IP(16), No. 10, October 2007, pp. 2476-2491.
IEEE DOI 0711
BibRef

Li, M.[Min], Nguyen, T.Q.[Truong Q.],
A De-Interlacing Algorithm Using Markov Random Field Model,
IP(16), No. 11, November 2007, pp. 2633-2648.
IEEE DOI 0709
BibRef
Earlier:
Discontinuity-Adaptive De-Interlacing Scheme Using Markov Random Field Model,
ICIP06(393-396).
IEEE DOI 0610
BibRef

Li, M.[Min], Nguyen, T.Q.[Truong Q.],
Markov Random Field Model-Based Edge-Directed Image Interpolation,
IP(17), No. 7, July 2008, pp. 1121-1128.
IEEE DOI 0806
BibRef
Earlier: ICIP07(II: 93-96).
IEEE DOI 0709
BibRef

Lee, G.G.[Gwo Giun], Lin, H.Y.[He-Yuan], Su, D.W.C.[Drew Wei-Chi], Wang, M.J.[Ming-Jiun],
Multiresolution-Based Texture Adaptive Algorithm for High-Quality Deinterlacing,
IEICE(E90-D), No. 11, November 2007, pp. 1821-1830.
DOI Link 0711
BibRef

Chen, P.Y.[Pei-Yin], Lai, Y.H.[Yao-Hsien],
A Low-Complexity Interpolation Method for Deinterlacing,
IEICE(E90-D), No. 2, February 2007, pp. 606-608.
DOI Link 0702
BibRef

Uchita, J.[Jun], Muramatsu, S.[Shogo], Ishida, T.[Takuma], Kikuchi, H.[Hisakazu],
Parameter Embedding in Motion-JPEG2000 through ROI for Variable-Coefficient Invertible Deinterlacing,
IEICE(E89-D), No. 11, November 2006, pp. 2794-2801.
DOI Link 0611
BibRef

Lee, G.G.[Gwo Giun], Wang, M.J.[Ming-Jiun], Li, H.T.[Hsin-Te], Lin, H.Y.[He-Yuan],
A Motion-Adaptive Deinterlacer via Hybrid Motion Detection and Edge-Pattern Recognition,
JIVP(2008), No. 2008, pp. xx-yy.
DOI Link 0804
BibRef

Keller, S.H.[Sune H.], Lauze, F.[François], Nielsen, M.[Mads],
Deinterlacing Using Variational Methods,
IP(17), No. 11, November 2008, pp. 1-14.
IEEE DOI 0810
BibRef
Earlier:
A Total Variation Motion Adaptive Deinterlacing Scheme,
ScaleSpace05(408-418).
Springer DOI 0505

See also Video Super-Resolution Using Simultaneous Motion and Intensity Calculations. BibRef

Wang, S.B., Chang, T.S.,
Adaptive De-Interlacing With Robust Overlapped Block Motion Compensation,
CirSysVideo(18), No. 10, October 2008, pp. 1437-1440.
IEEE DOI 0811
BibRef

Jeon, G.G.[Gwang-Gil], Anisetti, M.[Marco], Kim, D.H.[Dong-Hyung], Bellandi, V.[Valerio], Damiani, E.[Ernesto], Jeong, J.C.[Je-Chang],
Fuzzy rough sets hybrid scheme for motion and scene complexity adaptive deinterlacing,
IVC(27), No. 4, 3 March 2009, pp. 425-436.
Elsevier DOI 0804
Fuzzy control; Rough set; Deinterlacing; Directional interpolation; Motion analysis; Scene complexity analysis BibRef

Jeon, G.G.[Gwang-Gil], Falcon, R.[Rafael], Bello, R.[Rafael], Kim, D.H.[Dong-Hyung], Jeong, J.C.[Je-Chang],
Application of Bayesian Network for Fuzzy Rule-Based Video Deinterlacing,
PSIVT07(867-878).
Springer DOI 0712
BibRef

Jeon, G.G.[Gwang-Gil], You, J.M.[Jong-Min], Jeong, J.C.[Je-Chang],
Weighted Fuzzy Reasoning Scheme for Interlaced to Progressive Conversion,
CirSysVideo(19), No. 6, June 2009, pp. 842-855.
IEEE DOI 0906
BibRef

Jeon, G.G.[Gwang-Gil], Kim, J.J.[Jung-Jun], You, J.M.[Jong-Min], Jeong, J.C.[Je-Chang],
Fuzzy Rule Based Edge-Sensitive Line Average Algorithm in Interlaced HDTV Sequences,
IbPRIA07(II: 298-305).
Springer DOI 0706
BibRef

Jeon, G.G.[Gwang-Gil], Park, S.J.[Sang-Jun], Lee, J.H.[Joo-Hyun], Lee, R.K.[Rok-Kyu], Kim, S.J.[Seung-Jong], Jeong, J.C.[Je-Chang],
Enhancement of interlaced images by fuzzy reasoning approach,
ICIP09(3117-3120).
IEEE DOI 0911
BibRef

Jeon, G.G.[Gwang-Gil], Yong, F.[Fang], Lee, J.H.[Joo-Hyun], Lee, R.K.[Rok-Kyu], Jeong, J.C.[Je-Chang],
Spatio-temporal Information-Based Simple Deinterlacing Algorithm,
ACIVS07(810-817).
Springer DOI 0708
BibRef

Jeon, G.G.[Gwang-Gil], Jeong, J.C.[Je-Chang], Le, J.H.[Joo-Hyun], You, J.M.[Jong-Min], Wu, C.K.[Cheng-Ke],
A Spatio-Temporal Fuzzy Interpolation Algorithm for Video Deinterlacing,
ICIP06(1789-1792).
IEEE DOI 0610
BibRef

Dai, S.Y.[Sheng-Yang], Baker, S., Kang, S.B.[Sing Bing],
An MRF-Based DeInterlacing Algorithm With Exemplar-Based Refinement,
IP(18), No. 5, May 2009, pp. 956-968.
IEEE DOI 0904
BibRef

Lee, G.G., Lin, H.Y., Wang, M.J., Lai, R.L., Jhuo, C.W., Chen, B.H.,
Spatial-temporal content-adaptive deinterlacing algorithm,
IET-IPR(2), No. 6, December 2008, pp. 323-336.
DOI Link 0905
BibRef

Jeon, G.G.[Gwang-Gil], Jung, M.Y.[Min Young], Jeong, J.C.[Je-Chang], Park, S.H.[Sung Han], Suh, I.H.[Il Hong],
Weighted Interpolation Scheme for Robust Video Deinterlacing,
IEICE(E92-D), No. 3, March 2009, pp. 552-554.
WWW Link. 0907
BibRef

Park, S.J.[Sang-Jun], Min, C.K.[Chang-Ki], Jeong, J.C.[Je-Chang], Jeon, G.G.[Gwang-Gil],
Adaptive Weighting Scheme for Edge-based Line Interpolation,
PSIVT10(320-324).
IEEE DOI 1011
BibRef

Park, S.J.[Sang-Jun], Jeon, G.G.[Gwang-Gil], Jeong, J.C.[Je-Chang],
Covariance-based adaptive deinterlacing method using edge map,
IPTA10(166-171).
IEEE DOI 1007
BibRef

Fan, Y.C.[Yu-Cheng], Chung, C.H.[Chia-Hao],
De-Interlacing Algorithm Using Spatial-Temporal Correlation-Assisted Motion Estimation,
CirSysVideo(19), No. 7, July 2009, pp. 932-944.
IEEE DOI 0909
BibRef

Chang, J., Kim, Y.D., Shin, G.S., Kang, M.G.,
Adaptive Arbitration of Intra-Field and Motion Compensation Methods for De-Interlacing,
CirSysVideo(19), No. 8, August 2009, pp. 1214-1220.
IEEE DOI 0909
BibRef

Chen, Y.R., Tai, S.C.,
True Motion-Compensated De-Interlacing Algorithm,
CirSysVideo(19), No. 10, October 2009, pp. 1489-1498.
IEEE DOI 0911
BibRef

Brox, P.[Piedad], Castillo, I.B.[Iluminada Baturone], Solano, S.S.[Santiago Sánchez],
Fuzzy Logic-Based Algorithms for Video De-Interlacing,
Springer2010, ISBN: 978-3-642-10694-1
WWW Link. Buy this book: Fuzzy Logic-Based Algorithms for Video De-Interlacing (Studies in Fuzziness and Soft Computing) 1003
BibRef

Huang, Q.[Qian], Zhao, D.B.[De-Bin], Ma, S.W.[Si-Wei], Gao, W.[Wen], Sun, H.F.[Hui-Fang],
Deinterlacing Using Hierarchical Motion Analysis,
CirSysVideo(20), No. 5, May 2010, pp. 673-686.
IEEE DOI 1006
BibRef

Dong, J., Ngan, K.N.,
Real-Time De-Interlacing for H.264-Coded HD Videos,
CirSysVideo(20), No. 8, August 2010, pp. 1144-1149.
IEEE DOI 1008

See also Two-Layer Directional Transform for High Performance Video Coding. BibRef

Choi, H., Lee, C.,
Motion Adaptive Deinterlacing With Modular Neural Networks,
CirSysVideo(21), No. 6, June 2011, pp. 844-849.
IEEE DOI 1101
BibRef

Mahvash Mohammadi, H., Savaria, Y., Langlois, P.,
Hybrid video deinterlacing algorithm exploiting reverse motion estimation,
IET-IPR(5), No. 7, 2011, pp. 611-618.
DOI Link 1108
BibRef

Mahvash Mohammadi, H., Savaria, Y., Langlois, J.M.P.,
Enhanced motion compensated deinterlacing algorithm,
IET-IPR(6), No. 8, 2012, pp. 1041-1048.
DOI Link 1302
BibRef

Vedadi, F., Shirani, S.,
De-Interlacing Using Nonlocal Costs and Markov-Chain-Based Estimation of Interpolation Methods,
IP(22), No. 4, April 2013, pp. 1559-1572.
IEEE DOI 1303

See also MAP-Based Image Interpolation Method via Viterbi Decoding of Markov Chains of Interpolation Functions, A. BibRef

Santoro, M.[Michael], Al Regib, G.[Ghassan], Altunbasak, Y.[Yucel],
Joint Framework for Motion Validity and Estimation Using Block Overlap,
IP(22), No. 4, April 2013, pp. 1610-1619.
IEEE DOI 1303
BibRef
Earlier:
Block-overlap-based validity metric for hybrid de-interlacing,
ICIP12(841-844).
IEEE DOI 1302
BibRef

Wang, J., Jeon, G., Jeong, J.,
Deinterlacing Using Taylor Series Expansion and Polynomial Regression,
CirSysVideo(23), No. 5, May 2013, pp. 912-917.
IEEE DOI 1305
BibRef

Wang, J.[Jin], Jeon, G.G.[Gwang-Gil], Jeong, J.C.[Je-Chang],
Iterative second-order derivative-based deinterlacing algorithm,
SP:IC(28), No. 5, May 2013, pp. 472-482.
Elsevier DOI 1305
Deinterlacing; Second-order derivative; Iterative method
See also Moving Least-Squares Method for Interlaced to Progressive Scanning Format Conversion. BibRef

Wang, J.[Jin], Jeon, G.G.[Gwang-Gil], Jeong, J.C.[Je-Chang],
De-Interlacing Algorithm Using Weighted Least Squares,
CirSysVideo(24), No. 1, January 2014, pp. 39-48.
IEEE DOI 1402
image resolution BibRef

Chen, X.D.[Xiang-Dong], Jeong, J.C.[Je-Chang], Jeon, G.G.[Gwang-Gil],
Local adaptive rational interpolation filter and its application for deinterlacing,
VCIP12(1-5).
IEEE DOI 1302
BibRef

Yang, W.J.[Wei-Jen], Chung, K.L.[Kuo-Liang], Huang, Y.H.[Yong-Huai], Lin, L.C.[Le-Chung],
Quality-efficient syntax element-based de-interlacing method for H.264-coded video sequences with various resolutions,
JVCIR(25), No. 2, 2014, pp. 466-477.
Elsevier DOI 1402
De-interlacing BibRef

Zhang, H.[Hao], Rong, M.[Mengtian],
Deinterlacing algorithm using gradient-guided interpolation and weighted average of directional estimation,
IET-IPR(9), No. 6, 2015, pp. 450-460.
DOI Link 1507
image texture BibRef

Jeon, G.G.[Gwang-Gil], Kang, S.[Seok_Hoon], Lee, J.K.[Jong-Kyu],
A robust fuzzy-bilateral filtering method and its application to video deinterlacing,
RealTimeIP(11), No. 1, January 2016, pp. 223-233.
WWW Link. 1601
BibRef

Choi, I., Baek, S.H., Kim, M.H.,
Reconstructing Interlaced High-Dynamic-Range Video Using Joint Learning,
IP(26), No. 11, November 2017, pp. 5353-5366.
IEEE DOI 1709
image coding, image reconstruction, data-driven approach, deinterlacing problem, interlaced high-dynamic-range video reconstruction, jaggy artifact, deinterlacing, high-dynamic-range video BibRef

Zhao, Y.[Yang], Jia, W.[Wei], Wang, R.G.[Rong-Gang],
Rethinking Deinterlacing for Early Interlaced Videos,
CirSysVideo(32), No. 7, July 2022, pp. 4872-4878.
IEEE DOI 2207
Videos, Interpolation, Frequency modulation, Training, Image restoration, Task analysis, Testing, Deinterlacing, interlacing artifacts BibRef


Ji, R.[Ronglei], Tekalp, A.M.[A. Murat],
Multi-Field De-Interlacing Using Deformable Convolution Residual Blocks and Self-Attention,
ICIP22(901-905)
IEEE DOI 2211
Deformable models, Industries, Adaptation models, Convolution, Superresolution, Supervised learning, Writing, deep learning, self attention BibRef

Martins, A.L., Linhari Rodrigues, E.L., Veludo de Paiva, M.S.,
A Replacement Based Video De-Interlacing Technique by Feathering Effect Detection and Artifact Agglomeration Index,
WVC17(49-54)
IEEE DOI 1804
edge detection, image motion analysis, interpolation, video signal processing, ELA, artifact agglomeration index, Feathering Effect BibRef

Frakes, D.H.[David H.],
Video deinterlacing with control grid interpolation,
ICIP12(861-864).
IEEE DOI 1302
BibRef

Jin, B.[Bora], Kuk, J.G.[Jung Gap], Cho, N.I.[Nam Ik],
A gradient guided deinterlacing algorithm,
ICIP12(853-856).
IEEE DOI 1302
BibRef

Behnad, A.[Amin], Plataniotis, K.N.[Konstantinos N.], Wu, X.L.[Xiao-Lin],
A hidden Markov model-based methodology for intra-field video deinterlacing,
ICIP11(1189-1192).
IEEE DOI 1201
BibRef

Lee, H.T.[Ho-Taek], Lee, T.H.[Tae Hwan], Song, B.C.[Byung Cheol],
Spatio-temporal de-interlacing based on maximum likelihood estimation,
VCIP11(1-4).
IEEE DOI 1201
BibRef

Park, S.J.[Sang-Jun], Jeon, G.G.[Gwang-Gil], Jeong, J.C.[Je-Chang],
Direction-Oriented Line Interpolation Using Geometric Duality,
DICTA10(87-91).
IEEE DOI 1012
BibRef

Choi, Y.J.[Yun-Jun], Lim, K.W.[Kyoung Won], Ra, J.B.[Jong Beom],
Improvement on optical flow based video deinterlacing by adopting Flow Vector And Intensity Reliabilities,
ICIP09(393-396).
IEEE DOI 0911
BibRef

Yang, H.[Hua], Boyce, J.M.[Jill M.], Stein, A.[Alan],
Effective flicker removal from periodic intra frames and accurate flicker measurement,
ICIP08(2868-2871).
IEEE DOI 0810
BibRef

Shahinfard, E.[Elham], Sid-Ahmed, M.A.[Maher A.], Ahmadi, M.[Majid],
A motion adaptive deinterlacing method with hierarchical motion detection algorithm,
ICIP08(889-892).
IEEE DOI 0810
BibRef

Roussel, J.[Jerome], Bertolino, P.[Pascal],
Graph-based deinterlacing,
ICIP08(897-900).
IEEE DOI 0810
BibRef

Kozica, E.[Ermin], Zachariah, D.[Dave], Kleijn, W.B.[W. Bastiaan],
Interlacing Intraframes in Multiple-Description Video Coding,
ICIP07(IV: 277-280).
IEEE DOI 0709
BibRef

Baylon, D.M.[David M.],
On the Detection of Temporal Field Order in Interlaced Video Data,
ICIP07(VI: 129-132).
IEEE DOI 0709
BibRef

Roussel, J.[Jérôme], Bertolino, P.[Pascal], Nicolas, M.[Marina],
Improvement of Conventional Deinterlacing Methods with Extrema Detection and Interpolation,
ACIVS06(384-395).
Springer DOI 0609
BibRef

Jeong, T.[Taeuk], Lee, C.H.[Chul-Hee],
Motion-Compensated Deinterlacing Using Edge Information,
ACIVS06(545-553).
Springer DOI 0609
BibRef

Peng, C.[Cheng], He, Z.T.[Zheng-Ting], Cager, Y.,
An efficient motion-adaption de-interlacing technique on VLIW DSP architecture,
AVSBS05(644-649).
IEEE DOI 0602
BibRef

Almog, A., Levi, A., Bruckstein, A.M.,
Spatial De-Interlacing Using Dynamic Time Warping,
ICIP05(II: 1010-1013).
IEEE DOI 0512
BibRef

Byun, M.[Min], Park, M.K.[Min Kyu], Kang, M.G.[Moon Gi],
Edi-Based Deinterlacing Using Edge Patterns,
ICIP05(II: 1018-1021).
IEEE DOI 0512
BibRef

Gu, J.X.[Jun-Xia], Gao, X.B.[Xin-Bo], Li, J.[Jie],
De-interlacing Algorithm Based on Motion Objects,
ICIAR04(II: 381-388).
Springer DOI 0409
BibRef

Kato, H., Nakajima, Y., Sano, T.,
Integrated compressed domain resolution conversion with de-interlacing for DV to MPEG-4 transcoding,
ICIP04(IV: 2809-2812).
IEEE DOI 0505
BibRef

Byun, S.[Seangehan], Byun, J.M.[Jeong-Moon], Kim, G.H.[Gyeong-Hwan],
A recursive approach for de-interlacing using improved ELA and motion compensation based on bi-directional BMA,
ICIP04(III: 1679-1682).
IEEE DOI 0505
BibRef

Yang, S.J.[Seung-Joon], Jung, J.H.[Jae-Han], Jung, Y.Y.[You-Young],
Noise reduction and interlaced-to-progressive conversion based on optimal adaptation,
ICIP04(III: 1649-1652).
IEEE Abstract. 0505
BibRef

Ishida, T., Muramatsu, S., Xe, Z.[Zhou], Sasaki, S., Kikuchi, H.,
DWT gain compensation of motion-JPEG2000 for invertible deinterlacer,
ICIP03(II: 223-226).
IEEE DOI 0312
BibRef

Chang, Y.L.[Yu-Lin], Chen, C.Y.[Ching-Yeh], Lin, S.F.[Shyh-Feng], Chen, L.G.[Liang-Gee],
Motion compensated de-interlacing with adaptive global motion estimation and compensation,
ICIP03(III: 693-696).
IEEE DOI 0312
BibRef

Kim, Y.T.[Yeong-Taeg], Kim, S.H.[Shin-Haeng], Park, S.W.[Se-Woong],
Motion decision feedback deinterlacing algorithms,
ICIP02(III: 397-400).
IEEE DOI 0210
BibRef

van de Ville, D., Philips, W., Lemahieu, I.,
Motion Compensated De-interlacing for Both Realtime Video and Still Images,
ICIP00(Vol II: 680-683).
IEEE DOI 0008
BibRef

Giani, A., White, P.R., Collis, W.B., Weston, M.,
Exploiting Input Space Symmetries in Video Deinterlacing Using Radial Basis Function Networks,
ICIP01(I: 537-540).
IEEE DOI 0108
BibRef
Earlier:
Non-Linear Techniques for Video De-Interlacing,
ICIP00(Vol II: 684-687).
IEEE DOI 0403
BibRef

Martins, B.,
A Unified Approach to Restoration, Deinterlacing and Superresolution of Mpeg-2 Decoded Video,
ICIP00(Vol I: 1008-1011).
IEEE DOI 0008
BibRef

Vandendorpe, L., Cuvelier, L., Maison, B., Delogne, P.,
Coding of deinterlaced image sequences,
ICIP94(II: 943-946).
IEEE DOI 9411
BibRef

Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Image Compression, Coding, Overview Section .


Last update:Mar 16, 2024 at 20:36:19