5.6.2.3.2 Inverse Half Tone

Chapter Contents (Back)
Halftone. Inverse Halftone.
See also Demoireing, Demoiréing, Moire Removal.

Cinque, G.M.[Gregory M.], Pryor, R.W.[Roger W.], Rubinstein, A.[Arthur],
Method and apparatus for reproducing an original gray scale image,
US_Patent4,210,936, Jul 1, 1980
WWW Link. BibRef 8007

Hsieh, R.C.[Robert C.],
Halftone detection and delineation,
US_Patent4,403,257, Sep 6, 1983
WWW Link. BibRef 8309

Roetling, P.G.[Paul G.],
Unscreening of stored digital halftone images,
US_Patent4,630,125, Dec 16, 1986
WWW Link. BibRef 8612

Hiratsuka, S.[Seiichiro], Matsunawa, M.[Masahiko],
Methods of compressing and reproducing color image data,
US_Patent4,768,082, Aug 30, 1988
WWW Link. Compress color component signals BibRef 8808

Sasaki, T.[Tomio], Kobayashi, S.J.[Shin-Ji], Obata, M.[Masahito],
Image area discriminating device,
US_Patent5,408,339, Apr 18, 1995
WWW Link. BibRef 9504

Wong, P.W.[Ping Wah],
Inverse halftoning and kernel estimation for error diffusion,
IP(4), No. 4, April 1995, pp. 486-498.
IEEE DOI 0402
BibRef

Kim, Y.T.[Yeong-Taeg], Arce, G.R., Grabowski, N.,
Inverse halftoning using binary permutation filters,
IP(4), No. 9, September 1995, pp. 1296-1311.
IEEE DOI 0402
BibRef

Kim, Y.T.[Yeong-Taeg], Arce, G.R.,
Inverse ordered dithered halftoning using permutation filters,
ICIP94(II: 1017-1021).
IEEE DOI 9411
BibRef

Tanioka, H.[Hiroshi],
Image information processing method and apparatus therefor with multi-level data capability,
US_Patent5,572,606, Nov 5, 1996
WWW Link. binarized to gray BibRef 9611

Stevenson, R.L.,
Inverse Half-Toning via MAP Estimation,
IP(6), No. 4, April 1997, pp. 574-583.
IEEE DOI 9704
BibRef

Chen, L.M.[Li-Ming], Hang, H.M.[Hsueh-Ming],
An Adaptive Inverse Half-Toning Algorithm,
IP(6), No. 8, August 1997, pp. 1202-1209.
IEEE DOI 9708
BibRef
Earlier:
Inverse halftoning for monochrome pictures,
ICIP94(II: 1022-1026).
IEEE DOI 9411
BibRef

Chao, T.Y.[Tsi-Yi], Hang, H.M.[Hsueh-Ming],
Inverse halftoning of scanned images,
ICIP95(III: 420-423).
IEEE DOI 9510
BibRef

Xiong, Z.X.[Zi-Xiang], Orchard, M.T., Ramchandran, K.,
Inverse Halftoning Using Wavelets,
IP(8), No. 10, October 1999, pp. 1479-1483.
IEEE DOI BibRef 9910
Earlier: ICIP96(I: 569-572).
IEEE DOI 9610
BibRef

Mese, M., Vaidyanathan, P.P.,
Look-up table (LUT) method for inverse halftoning,
IP(10), No. 10, October 2001, pp. 1566-1578.
IEEE DOI 0110
BibRef
Earlier:
Look up Table (LUT) Method for Image Halftoning,
ICIP00(Vol III: 993-996).
IEEE DOI 0008
BibRef

Mese, M., Vaidyanathan, P.P.,
Tree-structured method for LUT inverse halftoning and for image halftoning,
IP(11), No. 6, June 2002, pp. 644-655.
IEEE DOI 0207
BibRef

Kite, T.D., Damera-Venkata, N., Evans, B.L., Bovik, A.C.,
A Fast, High-Quality Inverse Halftoning Algorithm for Error Diffused Halftones,
IP(9), No. 9, September 2000, pp. 1583-1592.
IEEE DOI 0008
BibRef
Earlier:
A high quality, fast inverse halftoning algorithm for error diffused halftones,
ICIP98(II: 59-63).
IEEE DOI 9810
BibRef

Damera-Venkata, N., Kite, T.D., Venkataraman, M., Evans, B.L.,
Fast blind inverse halftoning,
ICIP98(II: 64-68).
IEEE DOI 9810
BibRef

Ur Rehman, H.[Hamood], Evans, B.L.[Brian L.],
Alleviating Dirty-Window Effect in Medium Frame-Rate Binary Video Halftones,
IP(21), No. 4, April 2012, pp. 2022-2034.
IEEE DOI 1204
BibRef
Earlier:
Flicker assessment of low-to-medium frame-rate binary video halftones,
Southwest10(185-188).
IEEE DOI 1005
BibRef

Chang, P.C., Yu, C.S., Lee, T.H.,
Hybrid LMS-MMSE Inverse Halftoning Technique,
IP(10), No. 1, January 2001, pp. 95-103.
IEEE DOI 0101
BibRef

Shen, M.Y.[Mei-Yin], Kuo, C.C.J.[C.C. Jay],
A Robust Nonlinear Filtering Approach to Inverse Halftoning,
JVCIR(12), No. 1, March 2001, pp. 84-95.
DOI Link 0201
BibRef
Earlier:
Real-time Compression Artifact Reduction Via Robust Nonlinear Filtering,
ICIP99(II:565-569).
IEEE DOI BibRef

Cuciurean-Zapan, C.[Clara], Nagarajan, R.[Ramesh], Loce, R.P.[Robert P.], Kingsley, J.D.[Jeffrey D.],
Method and apparatus for modeling and reconstruction of halftoned images,
US_Patent6,343,159, Jan 29, 2002
WWW Link. BibRef 0201

Loce, R.P.[Robert P.], Kingsley, J.D.[Jeffrey D.],
Method and apparatus for using rotatable templates within look-up tables to enhance image reproduction,
US_Patent6,438,273, Aug 20, 2002
WWW Link. BibRef 0208
And: US_Patent6,782,142, Aug 24, 2004
WWW Link. BibRef

Loce, R.P.[Robert P.], Cianciosi, M.S.[Michael S.], Lin, Y.W.[Ying-Wei],
Systems and methods for template matching of multicolored images,
US_Patent6,356,654, Mar 12, 2002
WWW Link. BibRef 0203

Lin, Y.W.[Ying-Wei], Loce, R.P.[Robert P.],
Adaptive image enhancement filter,
US_Patent6,834,124, Dec 21, 2004
WWW Link. BibRef 0412

Chung, K.L.[Kuo-Liang], Wu, S.T.[Shih-Tung],
Inverse halftoning algorithm using edge-based lookup table approach,
IP(14), No. 10, October 2005, pp. 1583-1589.
IEEE DOI 0510
BibRef

Siddiqui, H., Bouman, C.A.,
Training-Based Descreening,
IP(16), No. 3, March 2007, pp. 789-802.
IEEE DOI 0703
BibRef

Chang, C.W.[Ching-Wei],
Method for screening of halftone images,
US_Patent7,262,879, Aug 28, 2007
WWW Link. BibRef 0708

Siddiqui, H.[Hasib], Boutin, M.[Mireille], Bouman, C.A.[Charles A.],
Hardware-Friendly Descreening,
IP(19), No. 3, March 2010, pp. 746-757.
IEEE DOI 1003
BibRef
Earlier: ICIP08(1740-1743).
IEEE DOI 0810
BibRef

Liu, Y.F.[Yun-Fu], Guo, J.M.[Jing-Ming], Lee, J.D.[Jiann-Der],
Inverse Halftoning Based on the Bayesian Theorem,
IP(20), No. 4, April 2011, pp. 1077-1084.
IEEE DOI 1103
BibRef
Earlier:
Inverse Halftoning Based on Bayesian Theorem,
PSIVT09(130-142).
Springer DOI 0901

See also Efficient Halftoning Based on Multiple Look-Up Tables. BibRef

Liu, Y.F.[Yun-Fu], Guo, J.M.[Jing-Ming], Lee, J.D.[Jiann-Der],
Halftone Image Classification Using LMS Algorithm and Naive Bayes,
IP(20), No. 10, October 2011, pp. 2837-2847.
IEEE DOI 1110
BibRef

Guo, J.M.[Jing-Ming], Liu, Y.F.[Yun-Fu], Chen, J.H.[Jen-Ho], Lee, J.D.[Jiann-Der],
Inverse Halftoning With Context Driven Prediction,
IP(23), No. 4, April 2014, pp. 1923-1924.
IEEE DOI 1404
edge detection BibRef

Son, C., Choo, H.,
Local Learned Dictionaries Optimized to Edge Orientation for Inverse Halftoning,
IP(23), No. 6, June 2014, pp. 2542-2556.
IEEE DOI 1406
Clustering algorithms BibRef

Sun, B.[Bin], Li, S.T.[Shu-Tao], Sun, J.[Jun],
Scanned Image Descreening With Image Redundancy and Adaptive Filtering,
IP(23), No. 8, August 2014, pp. 3698-3710.
IEEE DOI 1408
Gaussian processes BibRef

Sun, B.[Bin], Li, S.T.[Shu-Tao], Zhang, X.P., Sun, J.[Jun],
Blind Bleed-Through Removal for Scanned Historical Document Image With Conditional Random Fields,
IP(25), No. 12, December 2016, pp. 5702-5712.
IEEE DOI 1612
Gaussian distribution BibRef

Wen, Z.Q.[Zhi-Qiang], Lu, Y.L.[Yong-Le], Zeng, Z.G.[Zhi-Gao], Zhu, W.Q.[Wen-Qiu], Ai, J.H.[Jun-Hua],
Optimizing Template for Lookup-Table Inverse Halftoning using Elitist Genetic Algorithm,
SPLetters(22), No. 1, January 2015, pp. 71-75.
IEEE DOI 1410
BibRef
And: Erratum: SPLetters(22), No. 3, March 2015, pp. 375-375.
IEEE DOI 1410
Clustering algorithms decoding BibRef

Freitas, P.G.[Pedro G.], Farias, M.C.Q.[Mylène C.Q.], Araújo, A.P.F.[Aletéia P.F.],
Enhancing inverse halftoning via coupled dictionary training,
SP:IC(49), No. 1, 2016, pp. 1-8.
Elsevier DOI 1609
Coupled dictionaries BibRef

Li, M.[Mei], Liu, Q.[Qi],
An inverse halftoning method based on supervised deep convolutional neural network,
IET-IPR(18), No. 4, 2024, pp. 961-971.
DOI Link 2403
image processing, image reconstruction model, inverse halftone image, inverse halftoning method, multi-level feature extraction model BibRef


Yen, Y.T.[Yu-Ting], Cheng, C.C.[Chia-Chi], Chiu, W.C.[Wei-Chen],
Inverse Halftone Colorization: Making Halftone Prints Color Photos,
ICIP21(1734-1738)
IEEE DOI 2201
Image color analysis, Coherence, Task analysis, Inverse halftone, Colorization BibRef

Gao, Q., Shu, X., Wu, X.,
Deep Restoration of Vintage Photographs From Scanned Halftone Prints,
ICCV19(4119-4128)
IEEE DOI 2004
history, image recognition, image restoration, neural nets, unsupervised learning, deep learning, restoration task, Ink BibRef

Xia, M.[Menghan], Wong, T.T.[Tien-Tsin],
Deep Inverse Halftoning via Progressively Residual Learning,
ACCV18(VI:523-539).
Springer DOI 1906
BibRef

Xiao, Y.[Yi], Pan, C.[Chao], Zheng, Y.[Yan], Zhu, X.[Xianyi], Qin, Z.[Zheng], Yuan, J.[Jin],
Gradient-Guided DCNN for Inverse Halftoning and Image Expanding,
ACCV18(IV:207-222).
Springer DOI 1906
BibRef

Yang, J.[Jun], Guo, J.[Jun], Chao, H.Y.[Hong-Yang],
Inverse halftoning with grouping singular value decomposition,
ICIP15(1463-1467)
IEEE DOI 1512
grouping singular value decomposition (G-SVD) BibRef

Pollard, S.[Stephen], Ulichney, R.[Robert], Gaubatz, M.[Matthew],
Recovering planar projections of printed clustered-dot halftones,
ICIP14(4226-4230)
IEEE DOI 1502
Accuracy BibRef

Son, C.H.[Chang-Hwan],
Estimating embedded data from clustered halftone dots via learned dictionary,
ICIP14(2624-2628)
IEEE DOI 1502
Bit error rate BibRef

Li, X.[Xin],
Inverse halftoning with nonlocal regularization,
ICIP11(1717-1720).
IEEE DOI 1201
BibRef

Hur, K.S.[Kyu-Sung], Baek, Y.M.[Yeul-Min], Kim, W.Y.[Whoi-Yul],
Descreening Using HOG-based Adaptive Smoothing Filter,
PSIVT10(432-437).
IEEE DOI 1011
BibRef

Dasari, H.[Haritha], Bhagvati, C.[Chakravarthy],
Identification of Non-Black Inks Using HSV Colour Space,
ICDAR07(486-490).
IEEE DOI 0709
BibRef
Earlier:
Identification of Printing Process Using HSV Colour Space,
ACCV06(II:692-701).
Springer DOI 0601
BibRef
And: A2, A1:
Classification of liquid and viscous inks using HSV colour space,
ICDAR05(II: 660-664).
IEEE DOI 0508
BibRef

Kim, H.Y.[Hae Yong], de Queiroz, R.L.,
Inverse halftoning by decision tree learning,
ICIP03(II: 913-916).
IEEE DOI 0312
BibRef

Neelamani, R.N., Nowak, R.D., Baraniuk, R.G.,
Model-based Inverse Halftoning with Wavelet-vaguelette Deconvolution,
ICIP00(Vol III: 973-976).
IEEE DOI 0008
BibRef

Thao, N.,
Set Theoretic Inverse Halftoning,
ICIP97(I: 783-786).
IEEE DOI BibRef 9700

Fan, Z.G.[Zhi-Gang],
Unscreening using a hybrid filtering approach,
ICIP96(III: 351-354).
IEEE DOI 9610
BibRef

Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Contrast Enhancement .


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