5.4.5.2 Set Partitioning in Hierarchical Trees (SPIHT) Coding

Chapter Contents (Back)
Compression. Image Compression. Hierarchical Coding. SPIHT.

Dragotti, P.L., Poggi, G., Ragozini, A.R.P.,
Compression of Multispectral Images by Three-Dimensional SPIHT Algorithm,
GeoRS(38), No. 1, January 2000, pp. 416-428.
IEEE Top Reference. 0002
BibRef

Järvi, A., Lehtinen, J., Nevalainen, O.S.,
Variable quality image compression system based on SPIHT,
SP:IC(14), No. 9, July 1999, pp. 683-696.
WWW Link. BibRef 9907

Collins, T., Atkins, P.,
Error-tolerant SPIHT image compression,
VISP(148), No. 3, June 2001, pp. 182-186. 0108
BibRef

Sun, Y.[Yong], Zhang, H.[Hui], Hu, G.[Guangshu],
Real-time implementation of a new low-memory SPIHT image coding algorithm using DSP chip,
IP(11), No. 9, September 2002, pp. 1112-1116.
IEEE DOI 0210
BibRef

Thornton, L., Soraghan, J., Kutil, R., Chakraborty, M.,
Unequally protected SPIHT video codec for low bit rate transmission over highly error-prone mobile channels,
SP:IC(17), No. 4, April 2002, pp. 327-335.
WWW Link. 0205
BibRef

Said, A., Pearlman, W.A.,
A New, Fast, and Efficient Image CODEC Based on Set Partitioning in Hierarchical Trees,
CirSysVideo(6), No. 3, June 1996, pp. 243-250.
IEEE Top Reference. 9606
BibRef

Tang, X.L.[Xiao-Li], Cho, S.D.[Sung-Dae], Pearlman, W.A.,
3d set partitioning coding methods in hyperspectral image compression,
ICIP03(II: 239-242).
IEEE DOI 0312
BibRef

Kim, B.J., Xiong, Z., Pearlman, W.A.,
Low Bit-Rate Scalable Video Coding with 3-D Set Partitioning in Hierarchical Trees (3-D SPIHT),
CirSysVideo(10), No. 8, December 2000, pp. 1374-1387.
IEEE Top Reference. 0012
BibRef

Kim, Y., Pearlman, W.A.,
Stripe-based SPIHT Lossy Compression of Volumetric Medical Images for Low Memory Usage and Uniform Reconstruction Quality,
ICIP00(Vol III: 652-655).
IEEE DOI 0008
BibRef

Bayazit, U.[Ulug],
Significance map pruning and other enhancements to SPIHT image coding algorithm,
SP:IC(18), No. 9, October 2003, pp. 769-785.
WWW Link. 0310
BibRef

Bayazit, U., Pearlman, W.A.,
Algorithmic Modifications to SPIHT,
ICIP01(III: 800-803).
IEEE DOI 0108
BibRef

Cho, S.D.[Sung-Dae], Pearlman, W.A.,
A full-featured, error-resilient, scalable wavelet video codec based on the set partitioning in hierarchical trees (SPIHT) algorithm,
CirSysVideo(12), No. 3, March 2002, pp. 157-171.
IEEE Top Reference. 0205
BibRef

Pearlman, W.A., Islam, A., Nagaraj, N., Said, A.,
Efficient, Low-Complexity Image Coding With a Set-Partitioning Embedded Block Coder,
CirSysVideo(14), No. 11, November 2004, pp. 1219-1235.
IEEE Abstract. 0411
BibRef

Yea, S.H.[Se-Hoon], Said, A., Pearlman, W.A.,
Efficient image coding for access to pixel ranges,
ICIP04(I: 425-428).
IEEE DOI 0505
BibRef

Hwang, W.J.[Wen-Jyi], Wu, C.K.[Chung-Kun], Li, K.J.[Kuo-Jung],
Layered set partitioning in hierarchical tree for image coding,
SP(82), No. 2, February 2002, pp. 149-156.
WWW Link. 0202
BibRef

Kassim, A.A., Lee, W.S.[Wei Siong],
Embedded color image coding using SPIHT with partially linked spatial orientation trees,
CirSysVideo(13), No. 2, February 2003, pp. 203-206.
IEEE Top Reference. 0301
BibRef

Kim, K.L.[Ki-Lyug], Ra, S.W.[Sung-Woong],
Performance improvement of the SPIHT coder,
SP:IC(19), No. 1, January 2004, pp. 29-36.
WWW Link. 0401
BibRef

Tsai, P.[Piyu], Hu, Y.C.[Yu-Chen], Chang, C.C.[Chin-Chen],
A progressive secret reveal system based on SPIHT image transmission,
SP:IC(19), No. 3, March 2004, pp. 285-297.
WWW Link. 0402
BibRef

Miaou, S.G., Chen, S.T.,
Automatic Quality Control for Wavelet-Based Compression of Volumetric Medical Images Using Distortion-Constrained Adaptive Vector Quantization,
MedImg(23), No. 11, November 2004, pp. 1417-1429.
IEEE Abstract. 0411
Extended SPIHT method. BibRef

Danyali, H., Mertins, A.,
Flexible, highly scalable, object-based wavelet image compression algorithm for network applications,
VISP(151), No. 6, December 2004, pp. 498-510.
IEEE Abstract. 0501
BibRef
Earlier:
Highly scalable image compression based on SPIHT for network applications,
ICIP02(I: 217-220).
IEEE DOI 0210
BibRef

Danyali, H.[Habibollah], Amiri, M.D.[Mehran Deljavan],
A Multiresolution Robust Watermarking Approach for Scalable Wavelet Image Compression,
ACIVS08(xx-yy).
Springer DOI 0810
BibRef

Fry, T.W., Hauck, S.A.,
SPIHT Image Compression on FPGAs,
CirSysVideo(15), No. 9, September 2005, pp. 1138-1147.
IEEE DOI 0509
BibRef

Sprljan, N.[Nikola], Grgic, S.[Sonja], Grgic, M.[Mislav],
Modified SPIHT algorithm for wavelet packet image coding,
RealTimeImg(11), No. 5-6, October-December 2005, pp. 378-388.
WWW Link. 0510
BibRef

Annadurai, S., Geetha, P.,
Efficient Secured Lossless Coding Of Medical Images: Using Region Based Modified Spiht and Modified Run Length Coding for Character Representation,
GVIP(05), No. V9, 2005, pp. xx-yy.
HTML Version. BibRef 0500

Chang, S., Carin, L.,
A Modified SPIHT Algorithm for Image Coding With a Joint MSE and Classification Distortion Measure,
IP(15), No. 3, March 2006, pp. 713-725.
IEEE DOI 0604
BibRef

Krishnan, K., Marcellin, M.W., Bilgin, A.[Ali], Nadar, M.S.[Miriappan S.],
Efficient transmission of compressed data for remote volume visualization,
MedImg(25), No. 9, September 2006, pp. 1189-1199.
IEEE DOI 0609
BibRef

Lalgudi, H.G., Bilgin, A.[Ali], Marcellin, M.W., Nadar, M.S.[Miriappan S.],
Compression of Multidimensional Images Using JPEG2000,
SPLetters(15), No. 1, 2008, pp. 393-396.
IEEE DOI 0804
BibRef
Earlier:
Compression of fMRI and Ultrasound Images Using 4D SPIHT,
ICIP05(II: 746-749).
IEEE DOI 0512
BibRef

Martin, K., Lukac, R.[Rastislav], Plataniotis, K.N.[Konstantinos N.],
SPIHT-Based Coding of the Shape and Texture of Arbitrarily Shaped Visual Objects,
CirSysVideo(16), No. 10, October 2006, pp. 1196-1208.
IEEE DOI 0611
BibRef

Cho, Y., Pearlman, W.A.[William A.],
Hierarchical Dynamic Range Coding of Wavelet Subbands for Fast and Efficient Image Decompression,
IP(16), No. 8, August 2007, pp. 2005-2015.
IEEE DOI 0709
Progressive resolution coding. Compared to uncoded (not entropy coded) SPIHT, the bits are the same, but in different order, and computed faster. BibRef

Chen, Y.Y.[Yen-Yu],
Medical images compression for remote diagnosis using modified SPIHT data organization and fidelity enhancement filter,
IJIST(17), No. 2, 2007, pp. 49-61.
DOI Link 0710
BibRef

Pan, H.[Hong], Siu, W.C.[Wan-Chi], Law, N.F.[Ngai-Fong],
A fast and low memory image coding algorithm based on lifting wavelet transform and modified SPIHT,
SP:IC(23), No. 3, March 2008, pp. 146-161.
WWW Link. 0804
Low bit rate image compression; Lifting wavelet transform; Listless SPIHT BibRef

Pan, H.[Hong], Siu, W.C.[Wan-Chi], Law, N.F.[Ngai-Fong],
Lossless image compression using binary wavelet transform,
IET-IPR(1), No. 4, December 2007, pp. 353-362.
DOI Link 0905
BibRef

Pan, H.[Hong], Jin, L.Z.[Li-Zuo], Yuan, X.H.[Xiao-Hui], Xia, S.Y.[Si-Yu], Xia, L.Z.[Liang-Zheng],
Context-based embedded image compression using binary wavelet transform,
IVC(28), No. 6, June 2010, pp. 991-1002.
Elsevier DOI 1003
Binary wavelet transform; Context modeling; Embedded image compression BibRef

Shen, Z.L.[Zhen-Liang], Frater, M.R.[Michael R.], Arnold, J.F.[John F.],
Quad-Tree Block-Based Binary Shape Coding,
CirSysVideo(18), No. 6, June 2008, pp. 845-850.
IEEE DOI 0711
BibRef
Earlier:
Optimal Pruning Quad-Tree Block-Based Binary Shape Coding,
ICIP07(VI: 437-440).
IEEE DOI 0709
BibRef

Biswas, M.[Moyuresh], Frater, M.R.[Michael R.], Arnold, J.F.[John F.],
Multiple Description Wavelet Video Coding Employing a New Tree Structure,
CirSysVideo(18), No. 10, October 2008, pp. 1361-1368.
IEEE DOI 0711
BibRef
Earlier:
Multiple Description Video Coding With 3D-SPIHT Employing a New Tree Structure,
ICIP07(III: 389-392).
IEEE DOI 0709
BibRef

Guo, X.[Xun], Lu, Y.[Yan], Wu, F.[Feng], Zhao, D., Gao, W.[Wen],
Wyner-Ziv-Based Multiview Video Coding,
CirSysVideo(18), No. 6, June 2008, pp. 713-724.
IEEE DOI 0711
See also Rate-Distortion Function for Source Coding with Side Information at the Decoder, The. BibRef

Wu, B.[Bo], Ji, X.Y.[Xiang-Yang], Zhao, D.B.[De-Bin], Gao, W.[Wen],
Spatial-Aided Low-Delay Wyner-Ziv Video Coding,
JIVP(2009), No. 2009, pp. xx-yy.
DOI Link 0904
BibRef

Wu, B.[Bo], Zhang, N.[Nan], Ma, S.W.[Si-Wei], Gao, W.[Wen],
Improved spatial aided low delay Wyner-Ziv video coding by wavelet shrinkage,
VCIP11(1-4).
IEEE DOI 1201
BibRef

Su, L., Lu, Y.[Yan], Wu, F.[Feng], Li, S.P.[Shi-Peng], Gao, W.[Wen],
Complexity-Constrained H.264 Video Encoding,
CirSysVideo(19), No. 4, April 2009, pp. 477-490.
IEEE DOI 0906
BibRef

Guo, X.[Xun], Lu, Y.[Yan], Wu, F.[Feng], Gao, W.[Wen], Li, S.P.[Shi-Peng],
Wyner-Ziv Video Coding Based on Set Partitioning in Hierarchical Tree,
ICIP06(601-604).
IEEE DOI 0610
BibRef

Christophe, E.[Emmanuel], Pearlman, W.A.[William A.],
Three-Dimensional SPIHT Coding of Volume Images with Random Access and Resolution Scalability,
JIVP(2008), No. 2008, pp. xx-yy.
DOI Link 0804
BibRef

Kumwilaisak, W.[Wuttipong],
Foveation image coding with fuzzy-based joint parameter selection,
JVCIR(19), No. 7, October 2008, pp. 450-463.
WWW Link. 0810
Foveation image coding; Discrete wavelet transform; Scaling down factor; Joint parameter selection; Foveated wavelet image quality index; SPIHT codec; List significant pixel; Fuzzy logic system BibRef

Kose, K.[Kivanc], Cetin, A.E.[A. Enis], Gudukbay, U.[Ugur], Onural, L.[Levent],
3D Model compression using Connectivity-Guided Adaptive Wavelet Transform built into 2D SPIHT,
JVCIR(21), No. 1, January 2010, pp. 17-28.
Elsevier DOI 1002
SPIHT; Mesh compression; Adaptive wavelet transform; Projection; Image compression; Static mesh; Connectivity coding; Progressive mesh representation BibRef

Chen, Z.H.[Zhong-Ho], Su, A.W.Y.[Alvin W. Y.],
A Fast and Memory Efficient SPIHT Image Encoder,
IEICE(E93-D), No. 3, March 2010, pp. 602-610.
WWW Link. 1003
BibRef

Wang, Y.L., Wang, J.X., Su, A.W.Y.,
Combined significance MAP coding for still image compression,
IET-IPR(5), No. 1, February 2011, pp. 55-62.
DOI Link 1103
BibRef

Yang, S.Y.[Shu-Yuan], Wu, R.X.[Rui-Xia], Wang, M.[Min], Jiao, L.C.[Li-Cheng],
Evolutionary clustering based vector quantization and SPIHT coding for image compression,
PRL(31), No. 13, 1 October 2010, pp. 1773-1780.
Elsevier DOI 1003
Wavelet transform; Adaptive fuzzy C-means clustering; One-step gradient descent GA; SPIHT BibRef

Hu, Y.[Yang], Pearlman, W.A.[William A.],
Motion differential set partition coding for image sequence and video compression,
JVCIR(23), No. 4, May 2012, pp. 634-641.
Elsevier DOI 1205
Video coding; Image sequence coding; Motion coding; Set partition coding; Significance map; SPIHT; Random access; Lossless coding BibRef

Hu, Y.[Yang], Pearlman, W.A.[William A.],
Distributed video coding with progressive significance map,
JVCIR(24), No. 4, May 2013, pp. 458-464.
Elsevier DOI 1305
Distributed video coding; Set partition coding; SPIHT coding; Significance map; Wavelet transform; Slepian-Wolf coding; LDPCA codes; Error resilience BibRef

Zhu, J.[Jie], Dansereau, R.M.,
Error-Resilient and Error Concealment 3-D SPIHT for Multiple Description Video Coding With Added Redundancy,
CirSysVideo(22), No. 6, June 2012, pp. 855-868.
IEEE DOI 1206
BibRef

Zhu, J.[Jie], Dansereau, R.M., Cuhadar, A.[Aysegul],
Error-Resilient and Error Concealment 3-D SPIHT Video Coding with Added Redundancy,
ICISP10(351-358).
Springer DOI 1006
BibRef

Jin, Y.[Yongseok], Lee, H.J.[Hyuk-Jae],
A Block-Based Pass-Parallel SPIHT Algorithm,
CirSysVideo(22), No. 7, July 2012, pp. 1064-1075.
IEEE DOI 1208
BibRef

Lee, K.H.[Kuan-Hui], Chung, P.C.[Pau-Choo],
An attention emphasized bit arrangement in 3-D SPIHT video coding for human vision,
JVCIR(24), No. 3, April 2013, pp. 255-269.
Elsevier DOI 1303
Video compression; 3-D SPIHT; Bit rearrangement; Foveation-based HVS model BibRef

Li, Q., Chen, D., Jiang, W., Liu, B., Gong, J.,
Generalization of SPIHT: Set Partition Coding System,
IP(25), No. 2, February 2016, pp. 713-725.
IEEE DOI 1601
Algorithm design and analysis BibRef

Kim, S., Lee, D., Kim, J.S., Lee, H.J.,
A High-Throughput Hardware Design of a One-Dimensional SPIHT Algorithm,
MultMed(18), No. 3, March 2016, pp. 392-404.
IEEE DOI 1603
Algorithm design and analysis BibRef

Song, X.Y.[Xiao-Ying], Huang, Q.[Qijun], Chang, S.[Sheng], He, J.[Jin], Wang, H.[Hao],
Three-dimensional separate descendant-based SPIHT algorithm for fast compression of high-resolution medical image sequences,
IET-IPR(11), No. 1, January 2017, pp. 80-87.
DOI Link 1703
BibRef


Ben Abdallah, A., Zribi, A., Dziri, A., Tlili, F., Terré, M.,
Ultra wide band audio visual PHY IEEE 802.15.3c for SPIHT-compressed image transmission,
ISIVC16(59-64)
IEEE DOI 1704
Channel models BibRef

Dabhole, S.H.[Sanjay H.], Gundale, V.A.[Virajit A.], Potgieter, J.[Johan],
An efficient modified structure of CDF 9/7 Wavelet based on adaptive lifting with SPIHT for lossy to lossless image compression,
ICSIPR13(269-274).
IEEE DOI 1304
BibRef

Dabhole, S.H.[Sanjay H.], Gundale, V.A.[Virajit A.], Potgieter, J.[Johan],
Performance evaluation of traditional and adaptive lifting based wavelets with SPIHT for lossy image compression,
ICSIPR13(112-116).
IEEE DOI 1304
BibRef

Taneja, N.[Nidhi], Raman, B.[Balasubramanian], Gupta, I.[Indra],
Partial Encryption on SPIHT Compressed Images,
PReMI09(426-431).
Springer DOI 0912
BibRef

Li, Q.Y.[Qun-Ying], Zhang, X.L.[Xiao-Lin],
Robust SPIHT-Coded Image Transmission over Wireless Channels Using Packetization,
CISP09(1-4).
IEEE DOI 0910
BibRef

Mohammad, R.[Rafi], Barnes, C.F.[Christopher F.],
Vector Quantization in SPIHT Image Codec,
PSIVT06(742-750).
Springer DOI 0612
BibRef

Liang, Y.Q.[Yong-Qing], Budge, S.E.,
Classified Vector SPIHT Forwavelet Image Coding,
ICIP06(1865-1868).
IEEE DOI 0610
BibRef

Zhang, Z.P.[Zong-Ping], Liu, G.Z.[Gul-Zhong], Yang, Y.W.[Yi-Wen],
High performance full scalable video compression with embedded multiresolution MC-3DSPIHT,
ICIP02(III: 721-724).
IEEE DOI 0210
BibRef

Shen, D.F.[Day-Fann], Sung, J.H.[Jen-Hsing],
Application of JND visual model to SPIHT image coding and performance evaluation,
ICIP02(III: 249-252).
IEEE DOI 0210
BibRef

Miguel, A.C.[Agnieszka C.], Mohr, A.E.[Alexander E.], Riskin, E.A.[Eve A.],
SPIHT for Generalized Multiple Description Coding,
ICIP99(III:842-846).
IEEE DOI BibRef 9900

Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Cosine Transform, DCT Compression .


Last update:Nov 11, 2017 at 13:31:57