4.10.1.6.5 Wavelet Lifting Operator, Transform

Stoffel, A.,
Remarks on the Unsubsampled Wavelet Transform and the Lifting Scheme,
SP(69), No. 2, September 1998, pp. 177-182. 9811
BibRef

Lin, C., Zhang, B., Zheng, Y.F.,
Packet Integer Wavelet Transform Constructed by Lifting Scheme,
CirSysVideo(10), No. 8, December 2000, pp. 1496-1501.
IEEE Top Reference. 0012
BibRef

Jiang, W.Q.[Wen-Qing], Ortega, A.[Antonio],
Lifting factorization-based discrete wavelet transform architecture design,
CirSysVideo(11), No. 5, May 2001, pp. 651-657.
IEEE Top Reference. 0105
BibRef
Earlier:
Efficient Discrete Wavelet Transform Architectures Based on Filterbank Factorizations,
ICIP99(II:749-753).
IEEE DOI BibRef

Cheng, L.Z., Zhong, G.J., Luo, J.S.,
New family of lapped biorthogonal transform via lifting steps,
VISP(149), No. 2, April 2002, pp. 91-96.
IEEE Top Reference. 0208

See also Comments on 'new family of lapped biorthogonal transform via lifting steps'. BibRef

Cheng, L., Liang, D.L., Zhang, Z.H.,
Popular biorthogonal wavelet filters via a lifting scheme and its application in image compression,
VISP(150), No. 4, August 2003, pp. 227-232.
IEEE Abstract. 0311
BibRef

Secker, A., Taubman, D.S.,
Lifting-based invertible motion adaptive transform (LIMAT) framework for highly scalable video compression,
IP(12), No. 12, December 2003, pp. 1530-1542.
IEEE DOI 0402
BibRef
Earlier:
Highly Scalable Video Compression Using a Lifting-Based 3D Wavelet Transform with Deformable Mesh Motion Compensation,
ICIP02(III: 749-752).
IEEE DOI 0210

See also JPEG2000-Based Scalable Interactive Video (JSIV). BibRef

Secker, A., Taubman, D.,
Highly Scalable Video Compression with Scalable Motion Coding,
IP(13), No. 8, August 2004, pp. 1029-1041.
IEEE DOI 0409
BibRef
Earlier: A2, A1: ICIP03(III: 273-276).
IEEE DOI 0312
BibRef
Earlier: A1, A2:
Motion-compensated Highly Scalable Video Compression Using an Adaptive 3d Wavelet Transform Based on Lifting,
ICIP01(II: 1029-1032).
IEEE DOI 0108
BibRef

Taubman, D.S.[David S.],
Adaptive, Non-Separable Lifting Transforms for Image Compression,
ICIP99(III:772-776).
IEEE DOI BibRef 9900

Haghighat, M., Mathew, R.K., Naman, A.T., Taubman, D.S.,
Lifting-based Illumination Adaptive Transform (LIAT) using mesh-based illumination modelling,
ICIP17(3006-3010)
IEEE DOI 1803
Adaptation models, Distortion, Encoding, Image reconstruction, Lighting, Quantization (signal), Transforms, Affine mesh, Wavelet-based coding BibRef

Andriani, S.[Stefano], Taubman, D.S.[David S.],
Orientation Adaptive Discrete Packet Wavelet Decomposition via Shifting Operators for Image Compression,
CIAP07(717-724).
IEEE DOI 0709
BibRef

Mehrseresht, N., Taubman, D.S.,
Spatially Continuous Orientation Adaptive Discrete Packet Wavelet Decomposition for Image Compression,
ICIP06(1593-1596).
IEEE DOI 0610
BibRef
Earlier:
Adaptively weighted update steps in motion compensated lifting based scalable video compression,
ICIP03(II: 771-774).
IEEE DOI 0312
BibRef

Claypoole, R.L., Davis, G.M., Sweldens, W., Baraniuk, R.G.,
Nonlinear wavelet transforms for image coding via lifting,
IP(12), No. 12, December 2003, pp. 1449-1459.
IEEE DOI 0402
BibRef

Gouze, A., Antonini, M., Barlaud, M., Macq, B.,
Design of signal-adapted multidimensional lifting scheme for lossy coding,
IP(13), No. 12, December 2004, pp. 1589-1603.
IEEE DOI 0412
BibRef

Gouze, A., Parisot, C., Antonini, M., Barlaud, M.,
Optimal weighted model-based bit allocation for quincunx sampled images,
ICIP03(III: 221-224).
IEEE DOI 0312
BibRef

Parisot, C., Antonini, M., Barlaud, M.,
EBWIC: A Low Complexity and Efficient Rate Constrained Wavelet Image Coder,
ICIP00(Vol I: 653-656).
IEEE DOI 0008
BibRef

Gouze, A., Antonini, M., Barlaud, M., Macq, B.,
Optimized Lifting Scheme for Two-dimensional Quincunx Sampling Images,
ICIP01(II: 253-256).
IEEE DOI 0108
BibRef

Pereira, M., Antonini, M., Barlaud, M.,
Channel adapted multiple description coding scheme using wavelet transform,
ICIP02(II: 197-200).
IEEE DOI 0210
BibRef

Gouze, A., Antonini, M., Barlaud, M.,
Quincunx Lifting Scheme for Lossy Image Compression,
ICIP00(Vol I: 665-668).
IEEE DOI 0008
BibRef

Girod, B., Han, S.,
Optimum Update for Motion-Compensated Lifting,
SPLetters(12), No. 2, February 2005, pp. 150-153.
IEEE Abstract. 0501
BibRef

Chang, C.L.[Chuo-Ling], Girod, B.[Bernd],
Direction-Adaptive Discrete Wavelet Transform for Image Compression,
IP(16), No. 5, May 2007, pp. 1289-1302.
IEEE DOI 0704
BibRef
Earlier:
Direction-Adaptive Discrete Wavelet Transform via Directional Lifting and Bandeletization,
ICIP06(1149-1152).
IEEE DOI 0610
BibRef

Piella, G.[Gemma], Pesquet-Popescu, B.[Béatrice], Heijmans, H.J.A.M.[Henk J.A.M.],
Gradient-driven update lifting for adaptive wavelets,
SP:IC(20), No. 9-10, October-November 2005, pp. 813-831.
Elsevier DOI 0510
BibRef
Earlier: A3, A1, A2: ICIP02(I: 397-400).
IEEE DOI 0210
BibRef

Piella, G.[Gemma], Pesquet-Popescu, B.[Béatrice], Heijmans, H.J.A.M.[Henk J. A. M.], Pau, G.[Gregoire],
Combining Seminorms in Adaptive Lifting Schemes and Applications to Image Analysis and Compression,
JMIV(25), No. 2, September 2006, pp. 203-226.
Springer DOI 0610
BibRef

Piella, G.[Gemma], Pesquet-Popescu, B.[Beatrice],
A Three-Step Nonlinear Lifting Scheme for Lossless Image Compression,
ICIP07(I: 453-456).
IEEE DOI 0709
BibRef

Piella, G.[Gemma], Pau, G., Pesquet-Popescu, B.[Beatrice],
Adaptive Lifting Schemes Combining Seminorms for Lossless Image Compression,
ICIP05(I: 753-756).
IEEE DOI 0512
BibRef

Pesquet-Popescu, B., Heijmans, H.J.A.M., Abhayaratne, G.C.K., Piella, G.,
Quantization of adaptive 2D wavelet decompositions,
ICIP03(III: 209-212).
IEEE DOI 0312
BibRef

Piella, G., Heijmans, H.J.A.M.,
An Adaptive Update Lifting Scheme with Perfect Reconstruction,
ICIP01(III: 190-193).
IEEE DOI 0108
BibRef

Ercelebi, E., Koc, S.,
Lifting-based wavelet domain adaptive Wiener filter for image enhancement,
VISP(153), No. 1, February 2006, pp. 31-36.
DOI Link 0602
BibRef

Xiong, C.Y.[Cheng-Yi], Tian, J.W.[Jin-Wen], Liu, J.[Jian],
Efficient high-speed/low-power line-based architecture for two-dimensional discrete wavelet transform using lifting scheme,
CirSysVideo(16), No. 2, February 2006, pp. 309-316.
IEEE DOI 0604
BibRef

Xiong, C.Y.[Cheng-Yi], Tian, J.W.[Jin-Wen], Liu, J.[Jian],
Efficient Architectures for Two-Dimensional Discrete Wavelet Transform Using Lifting Scheme,
IP(16), No. 3, March 2007, pp. 607-614.
IEEE DOI 0703
BibRef

Ding, W., Wu, F., Wu, X., Li, S., Li, H.,
Adaptive Directional Lifting-Based Wavelet Transform for Image Coding,
IP(16), No. 2, February 2007, pp. 416-427.
IEEE DOI 0702
BibRef

Zhang, N.[Nan], Lu, Y.[Yan], Wu, F.[Feng], Wu, X.L.[Xiao-Lin], Yin, B.C.[Bao-Cai],
Efficient Multiple-Description Image Coding Using Directional Lifting-Based Transform,
CirSysVideo(18), No. 5, May 2008, pp. 646-656.
IEEE DOI 0711
BibRef

Yin, B.C.[Bao-Cai], Li, X.[Xin], Shi, Y.H.[Yun-Hui], Zhang, F.Z.[Fei-Zhou], Zhang, N.[Nan],
Directional lifting-based wavelet transform for multiple description image coding,
SP:IC(23), No. 1, January 2008, pp. 42-57.
Elsevier DOI 0801
Multiple description coding, Directional wavelet transform, Interpolation BibRef

Xu, H.[Hao], Xu, J.Z.[Ji-Zheng], Wu, F.[Feng],
Lifting-Based Directional DCT-Like Transform for Image Coding,
CirSysVideo(17), No. 10, October 2007, pp. 1325-1335.
IEEE DOI 0711
BibRef
Earlier: ICIP07(III: 185-188).
IEEE DOI 0709
BibRef

Xu, J.Z.[Ji-Zheng], Wu, F.[Feng], Zhang, W.J.[Wen-Jun],
On the coding gain of intra-predictive transforms,
ICIP09(13-16).
IEEE DOI 0911
BibRef

Xiong, R., Xu, J., Wu, F., Li, S.,
Barbell-Lifting Based 3-D Wavelet Coding Scheme,
CirSysVideo(17), No. 9, September 2007, pp. 1256-1269.
IEEE DOI 0711
BibRef

Xiong, R.Q.[Rui-Qin], Xu, J.Z.[Ji-Zheng], Wu, F.[Feng],
A Lifting-Based Wavelet Transform Supporting Non-Dyadic Spatial Scalability,
ICIP06(1861-1864).
IEEE DOI 0610
BibRef

Lei, Z.[Zhang], Makur, A.[Anamitra], Xu, Z.M.[Zhi-Ming],
On Lifting Factorization for 2-D LPPRFB,
ICIP06(2145-2148).
IEEE DOI 0610
BibRef

Liu, Y.[Yu], Ngan, K.N.[King Ngi], Wu, F.,
3-D Shape-Adaptive Directional Wavelet Transform for Object-Based Scalable Video Coding,
CirSysVideo(18), No. 7, July 2008, pp. 888-899.
IEEE DOI 0808
BibRef

Liu, Y.[Yu], Ngan, K.N.[King Ngi],
Weighted Adaptive Lifting-Based Wavelet Transform for Image Coding,
IP(17), No. 4, April 2008, pp. 500-511.
IEEE DOI 0803
BibRef
Earlier:
Weighted Adaptive Lifting-Based Wavelet Transform,
ICIP07(III: 189-192).
IEEE DOI 0709

See also Fast multiresolution motion estimation algorithms for wavelet-based scalable video coding. BibRef

Liu, Y.[Yu],
Unified Loop Filter for Video Compression,
CirSysVideo(20), No. 10, October 2010, pp. 1378-1382.
IEEE DOI 1011
BibRef

Benazza-Benyahia, A.[Amel], Pesquet, J.C.[Jean-Christophe], Hattay, J.[Jamel], Masmoudi, H.[Hela],
Block-Based Adaptive Vector Lifting Schemes for Multichannel Image Coding,
JIVP(2007), 2007, pp. xx-yy.
DOI Link 0804
BibRef

Kaaniche, M., Pesquet-Popescu, B., Pesquet, J.C.[Jean-Christophe], Benazza-Benyahia, A.[Amel],
Adaptive lifting schemes with a global L1 minimization technique for image coding,
ICIP12(2461-2464).
IEEE DOI 1302
BibRef

Kaaniche, M., Benazza-Benyahia, A., Pesquet-Popescu, B., Pesquet, J.C.,
Vector Lifting Schemes for Stereo Image Coding,
IP(18), No. 11, November 2009, pp. 2463-2475.
IEEE DOI 0911
BibRef

Bezzine, I., Kaaniche, M., Boudjit, S., Beghdadi, A.,
Sparse optimization of non separable vector lifting scheme for stereo image coding,
JVCIR(57), 2018, pp. 283-293.
Elsevier DOI 1812
Stereo images, Adaptive coding, Vector lifting scheme, Non separable transform, Optimization BibRef

Kaaniche, M., Fraysse, A., Pesquet-Popescu, B., Pesquet, J.C.,
A Bit Allocation Method for Sparse Source Coding,
IP(23), No. 1, January 2014, pp. 137-152.
IEEE DOI 1402
Gaussian distribution BibRef

Solé, J.[Joel], Salembier, P.[Philippe],
Quadratic Interpolation and Linear Lifting Design,
JIVP(2007), 2007, pp. xx-yy.
DOI Link 0804
BibRef

Rolon, J.C.[Julio C.], Salembier, P.[Philippe], Alameda, X.[Xavier],
Image compression with Generalized Lifting and partial knowledge of the signal pdf,
ICIP08(129-132).
IEEE DOI 0810
BibRef

Gao, X.P.[Xie-Ping], Xiao, F.[Fen], Li, B.D.[Bo-Dong],
Construction of Arbitrary Dimensional Biorthogonal Multiwavelet Using Lifting Scheme,
IP(18), No. 5, May 2009, pp. 942-955.
IEEE DOI 0904
BibRef

Varshney, H., Hasan, M., Jain, S.,
Energy efficient novel architectures for the lifting-based discrete wavelet transform,
IET-IPR(1), No. 3, September 2007, pp. 305-310.
DOI Link 0905
BibRef

Lee, C.W.,
General methods for L/M-fold resizing of compressed images using lapped transforms,
IET-IPR(1), No. 3, September 2007, pp. 295-303.
DOI Link 0905
BibRef

Li, W., Wu, X.,
Comments on 'new family of lapped biorthogonal transform via lifting steps',
IET-IPR(3), No. 3, June 2009, pp. 174-175.
DOI Link 0906

See also New family of lapped biorthogonal transform via lifting steps. BibRef

Hsia, C.H., Guo, J.M., Chiang, J.S.,
Improved Low-Complexity Algorithm for 2-D Integer Lifting-Based Discrete Wavelet Transform Using Symmetric Mask-Based Scheme,
CirSysVideo(19), No. 8, August 2009, pp. 1202-1208.
IEEE DOI 0909
BibRef

Hsia, C.H., Chiang, J.S., Guo, J.M.,
Memory-Efficient Hardware Architecture of 2-D Dual-Mode Lifting-Based Discrete Wavelet Transform,
CirSysVideo(23), No. 4, April 2013, pp. 671-683.
IEEE DOI 1304
BibRef

Yang, X.Y.[Xiao-Yuan], Shi, Y.[Yan], Chen, L., Quan, Z.,
The Lifting Scheme for Wavelet Bi-Frames: Theory, Structure, and Algorithm,
IP(19), No. 3, March 2010, pp. 612-624.
IEEE DOI 1003
BibRef

Shi, Y.[Yan], Yang, X.Y.[Xiao-Yuan],
The Lifting Factorization and Construction of Wavelet Bi-Frames With Arbitrary Generators and Scaling,
IP(20), No. 9, September 2011, pp. 2439-2449.
IEEE DOI 1109
BibRef

Anantrasirichai, N., Canagarajah, C.N., Redmill, D.W.[David W.], Bull, D.R.[David R.],
In-Band Disparity Compensation for Multiview Image Compression and View Synthesis,
CirSysVideo(20), No. 4, April 2010, pp. 473-484.
IEEE DOI 1003
BibRef

Akbari, A.S.[Akbar Sheikh], Canagarajah, C.N.[C. Nishan], Redmill, D.W.[David W.], Bull, D.R.[David R.],
Disparity Compensated View Filtering Wavelet Based Multiview Image Code Using Lagrangian Optimization,
3DTV08(309-312).
IEEE DOI 0805

See also Novel H.264/AVC Based Multi-View Video Coding Scheme, A. BibRef

Vrankic, M., Sersic, D.[Damir], Sucic, V.,
Adaptive 2-D Wavelet Transform Based on the Lifting Scheme With Preserved Vanishing Moments,
IP(19), No. 8, August 2010, pp. 1987-2004.
IEEE DOI 1008
BibRef

Yang, X., Zhu, Z., Guo, Y., Quan, Z.,
Lifting construction based on Bernstein bases and application in image compression,
IET-IPR(4), No. 5, October 2010, pp. 385-402.
DOI Link 1011
BibRef

Yang, X., Shi, Y., Yang, B.,
General framework of the construction of biorthogonal wavelets based on bernstein bases: theory analysis and application in image compression,
IET-CV(5), No. 1, March 2011, pp. 50-67.
DOI Link 1101
BibRef

Quan, D.[Do], Ho, Y.S.[Yo-Sung],
An effective approach for wavelet lifting based on filter optimization and median operator,
IJIST(20), No. 4, December 2010, pp. 359-366.
DOI Link 1011
BibRef

Quan, D.[Do], Ho, Y.S.[Yo-Sung],
Optimized Median Lifting Scheme for Lossy Image Compression,
IEICE(E94-D), No. 3, March 2011, pp. 721-724.
WWW Link. 1103
BibRef

Cappellari, L.[Lorenzo], Milani, S., Cruz-Reyes, C., Calvagno, G.[Giancarlo],
Resolution Scalable Image Coding With Reversible Cellular Automata,
IP(20), No. 5, May 2011, pp. 1461-1468.
IEEE DOI 1104
BibRef
Earlier: A1, A4, Only:
Lifting-based design of reversible cellular automata for scalable coding of binary images,
ICIP09(1901-1904).
IEEE DOI 0911
BibRef

Suzuki, T., Ikehara, M., Nguyen, T.Q.,
Generalized Block-Lifting Factorization of M-Channel Biorthogonal Filter Banks for Lossy-to-Lossless Image Coding,
IP(21), No. 7, July 2012, pp. 3220-3228.
IEEE DOI 1206
BibRef

Suzuki, T., Kudo, H.,
2D Non-Separable Block-Lifting Structure and Its Application to M -Channel Perfect Reconstruction Filter Banks for Lossy-to-Lossless Image Coding,
IP(24), No. 12, December 2015, pp. 4943-4951.
IEEE DOI 1512
channel bank filters BibRef

Suzuki, T., Ikehara, M.,
Reversible Symmetric Nonexpansive Convolution: An Effective Image Boundary Processing for M-Channel Lifting-Based Linear-Phase Filter Banks,
IP(23), No. 6, June 2014, pp. 2744-2749.
IEEE DOI 1406
Convolution BibRef

Chen, J.Z.[Jia-Zhong], Ju, Z.W.[Zeng-Wei], Hua, C.[Cao], Ma, B.P.[Bing-Peng], Chen, C.N.[Chang-Nian], Qin, L.H.[Lei-Hua], Li, R.[Rong],
Accelerated implementation of adaptive directional lifting-based discrete wavelet transform on GPU,
SP:IC(28), No. 9, 2013, pp. 1202-1211.
Elsevier DOI 1310
Graphics Processing Unit BibRef

Jayachandra, D., Makur, A.,
Directionlets Using In-Phase Lifting for Image Representation,
IP(23), No. 1, January 2014, pp. 240-249.
IEEE DOI 1402
image coding BibRef

Anusuya, V., Raghavan, V.S.[V. Srinivasa],
Dimensional scalable lossless compression of MRI images using Haar wavelet lifting scheme with EBCOT,
IJIST(24), No. 2, 2014, pp. 175-181.
DOI Link 1405
discrete cosine transform, wavelet lifting, block coding BibRef

Suzuki, T., Tanaka, N., Kudo, H.,
Redefined Block-Lifting-Based Filter Banks With Efficient Reversible Nonexpansive Convolution,
CirSysVideo(29), No. 5, May 2019, pp. 1438-1447.
IEEE DOI 1905
Image coding, Convolution, Transform coding, Filter banks, Discrete wavelet transforms, Symmetric matrices, nonexpansive convolution BibRef

Dardouri, T.[Tassnim], Kaaniche, M.[Mounir], Benazza-Benyahia, A.[Amel], Dauphin, G.[Gabriel], Pesquet, J.C.[Jean-Christophe],
Joint Learning of Fully Connected Network Models in Lifting Based Image Coders,
IP(33), 2024, pp. 134-148.
IEEE DOI 2312
BibRef

Dardouri, T., Kaaniche, M., Benazza-Benyahia, A., Pesquet, J.C.,
Optimized Lifting Scheme Based on A Dynamical Fully Connected Network for Image Coding,
ICIP20(3329-3333)
IEEE DOI 2011
Image coding, Optimization, Adaptation models, Standards, Neurons, Neural networks, neural networks. BibRef

Kaaniche, M.[Mounir], Matei, B.[Basarab], Meignen, S.[Sylvain],
Optimized lifting schemes based on ENO stencils for image approximation,
ICIP15(4308-4312)
IEEE DOI 1512
Adaptive wavelets BibRef

Schnurrer, W.[Wolfgang], Richter, T.[Thomas], Seiler, J.[Jurgen], Herglotz, C.[Christian], Kaup, A.[Andre],
3-D mesh compensated wavelet lifting for 3-D-t medical CT data,
ICIP14(3631-3635)
IEEE DOI 1502
Computed tomography BibRef

Barina, D.[David], Zemcik, P.[Pavel],
Minimum Memory Vectorisation of Wavelet Lifting,
ACIVS13(91-101).
Springer DOI 1311
BibRef

Kyochi, S.[Seisuke], Ikehara, M.[Masaaki],
Fractional cycle spinning via modulated lapped transform for overcomplete image representation,
ICIP14(2664-2668)
IEEE DOI 1502
Discrete wavelet transforms BibRef

Kyochi, S.[Seisuke], Aoyama, J.[Junya], Ikehara, M.[Masaaki],
A direction-adaptive image coding using two-dimensional direct lifting wavelet transform,
ICIP10(381-384).
IEEE DOI 1009
BibRef

Ong, J.J.[Jia Jan], Ang, L.M., Seng, K.P.,
Lifting Scheme DWT Implementation in a Wireless Vision Sensor Network,
IVIC09(627-635).
Springer DOI 0911
BibRef

Blackburn, J.[Joshua], Do, M.N.[Minh N.],
Two-dimensional geometric lifting,
ICIP09(3817-3820).
IEEE DOI 0911
BibRef

Shen, G.[Godwin], Ortega, A.[Antonio],
Compact image representation using wavelet lifting along arbitrary trees,
ICIP08(2808-2811).
IEEE DOI 0810
BibRef

Liu, L.J.[Li-Jie], Gan, L.[Lu], Tran, T.D.[Trac D.],
Lifting-based Laplacian Pyramid reconstruction schemes,
ICIP08(2812-2815).
IEEE DOI 0810
BibRef

Kitanovski, V., Kseneman, M., Gleich, D., Taskovski, D.,
Adaptive lifting integer wavelet transform for lossless image compression,
WSSIP08(105-108).
IEEE DOI 0806
BibRef

Aminlou, A.[Alireza], Refan, F.[Fatemeh], Hashemi, M.R.[Mahmoud Reza], Fatemi, O.[Omid],
Two Level Cost-Quality Optimization of 9-7 Lifting-Based Discrete Wavelet Transform,
ICIP07(VI: 217-220).
IEEE DOI 0709
BibRef

Iwamura, S.[Shunsuke], Tanaka, Y.[Yuichi], Ikehara, M.[Masaaki],
An Efficient Lifting Structure of Biorthogonal Filter Banks for Lossless Image Coding,
ICIP07(VI: 433-436).
IEEE DOI 0709
BibRef

Wang, Y.[Yan], Hamza, H.[Heba],
Time-Varying Volume Geometry Compression with 4D Lifting Wavelet Transform,
GMP06(670-676).
Springer DOI 0607
BibRef

Abbas, A., Tran, T.D.,
Multiplierless Design of Biorthogonal Dual-Tree Complex Wavelet Transform using Lifting Scheme,
ICIP06(1605-1608).
IEEE DOI 0610
BibRef

Yang, G.A.[Guo-An], Guo, S.G.[Shu-Gang],
A New Wavelet Lifting Scheme for Image Compression Applications,
IWICPAS06(465-474).
Springer DOI 0608
BibRef

Watanabe, S.[Shuji], Kawanaka, A.[Akira],
Lifting Wavelet Coding with Permutation and Coefficients Modification for Structured 3-D Geometry with Expanded Nodes,
ICIP07(V: 237-240).
IEEE DOI 0709
BibRef

Honda, A., Fukuda, K., Kawanaka, A.,
Permuting and Lifting Wavelet Coding for Structured 3-D Geometry Data with Expanded Nodes,
ICIP05(I: 761-764).
IEEE DOI 0512
BibRef

Kajita, T., Kaneko, H., Fukuda, K., Kawanaka, A.,
Wavelet coding of structured geometry data considering rate-distortion properties,
3DPVT02(536-539).
IEEE DOI 0206
BibRef

Amada, H., Kasai, K., Saito, Y., Fukuda, K., Kawanaka, A.,
An efficient coding for 3-d geometry data based on surface simplification and wavelet transform,
ICIP04(V: 3265-3269).
IEEE DOI 0505
BibRef

Zhang, X.[Xi], Wang, W.[Wei], Yoshikawa, T., Takei, Y.,
Design of IIR orthogonal wavelet filter banks using lifting scheme,
ICIP04(IV: 2511-2514).
IEEE DOI 0505
BibRef

Tonomura, Y., Chokchaitam, S., Iwahashi, M.,
Minimum hardware implementation of multipliers of the lifting wavelet transform,
ICIP04(IV: 2499-2502).
IEEE DOI 0505
BibRef

Sun, Y.K.[Yan-Kui],
A two-dimensional lifting scheme of integer wavelet transform for lossless image compression,
ICIP04(I: 497-500).
IEEE DOI 0505
BibRef

Feng, B.[Bo], Xu, J.Z.[Ji-Zheng], Wu, F.[Feng], Yang, S.Q.[Shi-Qiang], Li, S.P.[Shi-Peng],
Energy distributed update steps(edu) in lifting based motion compensated video coding,
ICIP04(IV: 2267-2270).
IEEE DOI 0505
BibRef

Li, H.L.[Hong-Liang], Liu, G.Z.[Gui-Zhong], Li, Y.L.[Yong-Li], Hou, X.S.[Xing-Song],
The construction of a statistical prediction lifting operator and its application,
ICIP02(I: 353-356).
IEEE DOI 0210
BibRef

Przelaskowski, A.[Artur],
Lifting-Based Reversible Transforms for Lossy-to-Lossless Wavelet Codecs,
CAIP01(61 ff.).
Springer DOI 0210
BibRef

Przelaskowski, A.[Artur],
Hybrid Lossless Coder of Medical Images with Statistical Data Modelling,
CAIP01(92 ff.).
Springer DOI 0210
BibRef

Yoo, H., Jeong, J.,
A Unified Framework for Wavelet Transforms Based on the Lifting Scheme,
ICIP01(III: 792-795).
IEEE DOI 0108
BibRef

Tay, D.,
A Class of Lifting Based Integer Wavelet Transform,
ICIP01(I: 602-605).
IEEE DOI 0108
BibRef

Feilner, M., Jacob, M., Unser, M.,
Orthogonal Quincunx Wavelets with Fractional Orders,
ICIP01(I: 606-609).
IEEE DOI 0108
BibRef

Reichel, J.,
On the Arithmetic and Bandwidth Complexity of the Lifting Scheme,
ICIP01(III: 198-201).
IEEE DOI 0108
BibRef

Zhong, G.J.[Guang-Jun], Cheng, L.Z.[Li-Zhi], Chen, H.W.[Huo-Wang],
Integer Lapped Biorthogonal Transform,
ICIP01(II: 471-474).
IEEE DOI 0108
BibRef

Zhong, G.J.[Guang-Jun], Cheng, L.Z.[Li-Zhi], Chen, H.W.[Huo-Wang],
A Simple 9/7-tap Wavelet Filter Based on Lifting Scheme,
ICIP01(II: 249-252).
IEEE DOI 0108
BibRef

Takano, S., Niijima, K.,
Subimage Extraction by Integer-type Lifting Wavelet Transforms,
ICIP00(Vol II: 403-406).
IEEE DOI 0008
BibRef

Okuda, M.[Masahiro], Mitra, S.K.[Sanjit K.], Ikehara, M.[Masaaki], Takahashi, S.I.[Shin-Ichi],
Time-varying Wavelet Transforms with Lifting Steps for Lossless Image Compression,
ICIP99(IV:48-52).
IEEE DOI BibRef 9900

Tran, T.D.[Trac D.],
The LiftLT: Fast Lapped Transforms via Lifting Steps,
ICIP99(II:745-748).
IEEE DOI BibRef 9900

Omiya, N.[Nobutaka], Nagai, T.[Takayuki], Ikehara, M.[Masaaki], Takahashi, S.,
Organization of optimal nonuniform lapped biorthogonal transforms based on coding efficiency,
ICIP99(I:624-627).
IEEE DOI BibRef 9900

Stepien, J., Zielinski, T., Rumian, R.,
Image Denoising Using Scale-adaptive Lifting Schemes,
ICIP00(Vol III: 288-291).
IEEE DOI 0008
BibRef

Shim, M., Laine, A.,
Overcomplete lifted wavelet representations for multiscale feature analysis,
ICIP98(II: 242-246).
IEEE DOI 9810
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Wavelet Coding, Compression Applications, Hardware .