refs.bib

@ARTICLE{aharon-06-overcomplete-sparse-dict,
	author   = {Aharon, M. and Elad, M. and Bruckstein, A.},
	journal  = {Signal Processing, IEEE Transactions on},
	title    = {{K}-{SVD}: An Algorithm for Designing Overcomplete Dictionaries for Sparse Representation},
	year     = {2006},
	month    = {Nov},
	volume   = {54},
	number   = {11},
	pages    = {4311-4322},
	keywords = {image coding;image representation;iterative methods;singular value decomposition;transforms;K-SVD;K-means clustering process;image data;iterative method;linear transforms;overcomplete dictionary;signals sparse representation;sparse coding;sparsity constraints;Algorithm design and analysis;Clustering algorithms;Dictionaries;Feature extraction;Inverse problems;Iterative algorithms;Matching pursuit algorithms;Prototypes;Pursuit algorithms;Signal design;Atom decomposition;FOCUSS;basis pursuit;codebook;dictionary;gain-shape VQ;matching pursuit;sparse representation;training;vector quantization},
	doi      = {10.1109/TSP.2006.881199},
	ISSN     = {1053-587X},
}

@ARTICLE{jain-75-nearest-neighbors,
	author   = {Jain, A.K.},
	journal  = {Communications, IEEE Transactions on},
	title    = {{Image Coding Via a Nearest Neighbors Image Model}},
	year     = {1975},
	month    = {Mar},
	volume   = {23},
	number   = {3},
	pages    = {318-331},
	keywords = {Image coding;Bandwidth;Computational modeling;Computer architecture;Data compression;Distortion measurement;Image coding;Modulation coding;Nearest neighbor searches;Pulse modulation;Transform coding},
	doi      = {10.1109/TCOM.1975.1092798},
	ISSN     = {0090-6778},}

@ARTICLE{jain-76-klt-random-process,
	author   = {Jain, A.K.},
	journal  = {Communications, IEEE Transactions on},
	title    = {{A Fast Karhunen-Lo\`eve Transform for a Class of Random Processes}},
	year     = {1976},
	month    = {Sep},
	volume   = {24},
	number   = {9},
	pages    = {1023-1029},
	keywords = {Karhunen-Loeve transforms;Markov processes;Chromium;Control systems;Data compression;Error correction;Karhunen-Loeve transforms;Random processes;Sampling methods;Signal processing algorithms;Sparse matrices;Speech analysis},
	doi      = {10.1109/TCOM.1976.1093409},
	ISSN     = {0090-6778},}

@INPROCEEDINGS{huang-06-sparse-representation,
	author    = {Ke Huang and S. Aviyente},
	title     = {Sparse representation for signal classification},
	booktitle = {In Adv. NIPS},
	year      = {2006}
}

@ARTICLE{starck-05-sparse-decomposition,
	author   = {J.L. Starck and M. Elad and D.L. Donoho},
	journal  = {Image Processing, IEEE Transactions on},
	title    = {Image decomposition via the combination of sparse representations and a variational approach},
	year     = {2005},
	month    = {Oct},
	volume   = {14},
	number   = {10},
	pages    = {1570-1582},
	keywords = {discrete cosine transforms;discrete wavelet transforms;image denoising;image representation;image texture;independent component analysis;optimisation;source separation;BPDN algorithm;DCT;basis pursuit denoising;discrete cosine transform;image content separation;image decomposition;image representation;image texture;independent component analysis;optimization problem;piecewise smooth part;total-variation regularization scheme;wavelet transform;Dictionaries;Image coding;Image decomposition;Image restoration;Independent component analysis;Layout;Noise reduction;Pursuit algorithms;Separation processes;TV;Basis pursuit denoising (BPDN);curvelet;local discrete cosine transform (DCT);piecewise smooth;ridgelet;sparse representations;texture;total variation;wavelet;Algorithms;Artificial Intelligence;Image Enhancement;Image Interpretation, Computer-Assisted;Information Storage and Retrieval;Models, Statistical;Pattern Recognition, Automated},
	doi      = {10.1109/TIP.2005.852206},
	ISSN     = {1057-7149},
}

@INPROCEEDINGS{poynton-95-color-space,
	author    = {Charles A. Poynton},
	booktitle = {SMPTE Advanced Television and Electronic Imaging Conference},
	title     = {A Guided Tour of Color Space},
	month     = {Feb},
	year      = {2005},
	pages     = {167-180},
}

@ARTICLE{sullivan-12-overview-hevc,
	author   = {Sullivan, G.J. and Ohm, J. and Woo Jin Han and Wiegand, T.},
	journal  = {Circuits and Systems for Video Technology, IEEE Transactions on},
	title    = {Overview of the {H}igh {E}fficiency {V}ideo {C}oding Standard},
	year     = {2012},
	volume   = {22},
	number   = {12},
	pages    = {1649-1668},
	keywords = {video coding;HEVC standardization effort;ISO-IEC Moving Picture Experts Group;ITU-T Video Coding Experts Group;bit-rate reduction;compression performance improvement;equal perceptual video quality;high efficiency video coding standard;technical features;ISO standards;MPEG 4 Standard;MPEG standards;Video coding;Video compression;Advanced video coding (AVC);H.264;High Efficiency Video Coding (HEVC);Joint Collaborative Team on Video Coding (JCT-VC);MPEG-4;Moving Picture Experts Group (MPEG);Video Coding Experts Group (VCEG);standards;video compression},
	doi      = {10.1109/TCSVT.2012.2221191},
	ISSN     = {1051-8215},
}

@INPROCEEDINGS{arrufat-14-mddt-rdot,
	author    = {Arrufat, Adri\`a and Philippe, Pierrick and D\'eforges, Oliver},
	booktitle = {Visual Communications and Image Processing Conference, 2014 IEEE},
	title     = {Non-separable mode-dependent transforms for intra coding in {HEVC}},
	year      = {2014},
	month     = {Dec},
	pages     = {61-64},
	keywords  = {Discrete cosine transforms;Encoding;IP networks;Quantization (signal);Standards;Video coding;KLT;MDDT;adapted transform design;rate-distortion optimisation;transform coding},
	doi       = {10.1109/VCIP.2014.7051504},
}

@INPROCEEDINGS{arrufat-14-transform-competition-rdot,
	author    = {Arrufat, Adri\`a and Philippe, Pierrick and D\'eforges, Oliver},
	booktitle = {Visual Communications and Image Processing Conference, 2014 IEEE},
	title     = {Rate-distortion optimised transform competition for intra coding in {HEVC}},
	year      = {2014},
	month     = {Dec},
	pages     = {73-76},
	keywords  = {Discrete cosine transforms;Encoding;Rate-distortion;Standards;Transform coding;Video coding;DST;HEVC;adapted transform design;rate-distortion optimisation;transform coding},
	doi       = {10.1109/VCIP.2014.7051507},
}

@INPROCEEDINGS{arrufat-15-mdtc,
	author    = {Arrufat, Adri\`a and Philippe, Pierrick and D\'eforges, Oliver},
	booktitle = {Image Processing, 2015. ICIP 2015. 22th IEEE International Conference on},
	title     = {Mode-dependent transform competition in {HEVC}},
	year      = {2015},
	pages     = {149-152},
	keywords  = {HEVC, transform coding, KLT, MDDT, rate-distortion optimised transforms},
	doi       = {10.1109/ICIP.2008.4711713},
	ISSN      = {1522-4880},
}

@INPROCEEDINGS{arrufat-15-inc-transforms,
	author    = {Arrufat, Adri\`a and Philippe, Pierrick and Perrin, Anne Flore},
	booktitle = {Image Processing, 2015. ICIP 2015. 22th IEEE International Conference on},
	title     = {Image coding with incomplete transform competition in {HEVC}},
	year      = {2015},
	pages     = {159-162},
	keywords  = {HEVC, transform coding, KLT, MDDT, rate-distortion optimised transforms},
	doi       = {10.1109/ICIP.2008.4711713},
	ISSN      = {1522-4880},
}

@INPROCEEDINGS{arrufat-16-low-complexity,
	author    = {Arrufat, Adri\`a and Philippe, Pierrick and Reuz\'e, Kevin and D\'eforges, Olivier},
	booktitle = {Acoustics Speech and Signal Processing (ICASSP), 2016 IEEE International Conference on},
	title     = {Low complexity transform competition for {HEVC}},
	year      = {2016},
}

@INPROCEEDINGS{sezer-08-sparse-orthonormal-transforms,
	author    = {Sezer, O.G. and Harmanci, O. and Guleryuz, O.G.},
	booktitle = {Image Processing, 2008. ICIP 2008. 15th IEEE International Conference on},
	title     = {Sparse orthonormal transforms for image compression},
	year      = {2008},
	pages     = {149-152},
	keywords  = {data compression;image classification;image coding;transform coding;transforms;EZW-SPIHT like entropy coder;algebra;block-based transform optimization;directional image singularity;geometric regularity;image blocks;image classification;image compression;nonlinear approximation optimized transform coding;sparse orthonormal transforms;transform basis function;Codecs;Constraint optimization;Cost function;Design optimization;Image coding;Image processing;Rate-distortion;Signal processing;Transform coding;Wavelet transforms;Sparse orthonormal transforms;directional transforms;image coding;sparse lapped transforms},
	doi       = {10.1109/ICIP.2008.4711713},
	ISSN      = {1522-4880},
}

@INPROCEEDINGS{han-10-spatial-adaptive-transform,
	author    = {Jingning Han and Saxena, A. and Rose, K.},
	booktitle = {Acoustics Speech and Signal Processing (ICASSP), 2010 IEEE International Conference on},
	title     = {Towards jointly optimal spatial prediction and adaptive transform in video/image coding},
	year      = {2010},
	pages     = {726-729},
	keywords  = {Gaussian processes;Markov processes;discrete cosine transforms;transform coding;video coding;H.264/AVC intra mode;adaptive transform;block-based image compression;block-based video compression;context-adaptive spatial prediction;discrete cosine transform;first-order Gauss-Markov model;image coding;image signal;optimal spatial prediction;sine transform;video coding;Decoding;Discrete cosine transforms;Discrete transforms;Frequency;Gaussian processes;Image coding;Predictive models;Switches;Transform coding;Video compression;Blocking effect;H.264 Intra mode;Image Compression;Transform Coding},
	doi       = {10.1109/ICASSP.2010.5495043},
	ISSN      = {1520-6149},
}

@ARTICLE{sole-12-transform-coefficient-coding,
	author   = {Sole, J. and Joshi, R. and Nguyen Nguyen and Tianying Ji and Karczewicz, M. and Clare, G. and Henry, F. and Duenas, A.},
	journal  = {Circuits and Systems for Video Technology, IEEE Transactions on},
	title    = {Transform Coefficient Coding in {HEVC}},
	year     = {2012},
	volume   = {22},
	number   = {12},
	pages    = {1765-1777},
	keywords = {data encapsulation;transform coding;video coding;HEVC specification;coefficient levels;draft international standard;high efficiency video coding;high-throughput binarization;last significant coefficient coding;multilevel significance maps;scanning patterns;sign data hiding;transform coefficient coding;Encoding;Throughput;Transforms;Video coding;High Efficiency Video Coding (HEVC);high throughput entropy coder;transform coefficient coding;video coding},
	doi      = {10.1109/TCSVT.2012.2223055},
	ISSN     = {1051-8215},
}

@TECHREPORT{JCTVC-A204,
	author      = {{JCT}-{VC}},
	title       = {{T}est {M}odel under {C}onsideration},
	institution = {ITU-T},
	number      = {JCT-VC A204},
	year        = {2010},
	address     = {Dresden, Germany},
	month       = {April}
}

@TECHREPORT{JCTVC-B024,
	author      = {Chuohau Yeo and Yih Han Tan and Zhengguo Li and Rahardja, S.},
	title       = {{M}ode-{D}ependent {F}ast {S}eparable {KLT} for {B}lock-based {I}ntra {C}oding},
	institution = {ITU-T},
	number      = {JCT-VC B024},
	year        = {2010},
	address     = {Geneva, Switzerland},
	month       = {July}
}

@TECHREPORT{JCTVC-C096,
	author      = {Fernandes, F.C.},
	title       = {{L}ow {C}omplexity {R}otational {T}ransform},
	institution = {ITU-T},
	number      = {JCT-VC C096},
	year        = {2010},
	address     = {Guangzhou, China},
	month       = {October}
}

@TECHREPORT{JCTVC-C108,
	author      = {Saxena, A. and Fernandes, F.C.},
	title       = {Jointly optimal intra prediction and adapted primary transform},
	institution = {ITU-T},
	number      = {JCT-VC C108},
	year        = {2010},
	address     = {Guangzhou, China},
	month       = {October}
}

@TECHREPORT{JCTVC-D033,
	author      = {Saxena, A. and Fernandes, F.C.},
	title       = {Mode-dependent {DCT}/{DST} for intra prediction in video coding},
	institution = {ITU-T},
	number      = {JCT-VC D033},
	year        = {2011},
	address     = {Daegu, Korea},
	month       = {January}
}

@TECHREPORT{JCTVC-D048,
	author      = {Chuohao Yeo and Yih Han Tan and Zhengguo Li},
	title       = {Low-complexity 4-point {I}nteger {D}iscrete {S}ine {T}ransform},
	institution = {ITU-T},
	number      = {JCT-VC D048},
	year        = {2011},
	address     = {Daegu, Korea},
	month       = {January}
}

@TECHREPORT{JCTVC-E125,
	author      = {Saxena, A. and Fernandes, F.C.},
	title       = {Mode-dependent {DCT}/{DST} without 4*4 full matrix multiplication for intra prediction},
	institution = {ITU-T},
	number      = {JCT-VC E125},
	year        = {2011},
	address     = {Geneva, Switzerland},
	month       = {March}
}

@TECHREPORT{JCTVC-F283,
	author      = {Saxena, A. and Fernandes, F.C.},
	title       = {On fast implementation of 4-point {DST} {T}ype-7 with 5 multiplications},
	institution = {ITU-T},
	number      = {JCT-VC F283},
	year        = {2011},
	address     = {Torino, Italy},
	month       = {July}
}

@TECHREPORT{JCTVC-G108,
	author      = {Saxena, A. and Shibahara, Y. and Fernandes, F.C. and T.Nishi},
	title       = {On secondary transforms for intra prediction residual},
	institution = {ITU-T},
	number      = {JCT-VC G108},
	year        = {2011},
	address     = {Geneva, Switzerland},
	month       = {November}
}

@TECHREPORT{JCTVC-G704,
	author      = {Wei-Jun, C. and Sole, J. and Karczewicz, M.},
	title       = {Last position coding for {CABAC}},
	institution = {ITU-T},
	number      = {JCT-VC G704},
	year        = {2011},
	address     = {Geneva, Switzerland},
	month       = {November}
}

@TECHREPORT{JCTVC-J0021,
	author      = {Ugur, K. and Saxena, A.},
	title       = {Summary report of {C}ore {E}xperiment on intra transform mode dependency simplifications},
	institution = {ITU-T},
	number      = {JCT-VC J0021},
	year        = {2012},
	address     = {Stockholm, Sweden},
	month       = {July}
}

@TECHREPORT{JCTVC-F077,
	author      = {Mrak, M. and Gabriellini, A. and Sprljan N. and Flynn, D.},
	title       = {Transform skip mode},
	institution = {ITU-T},
	number      = {JCT-VC F077},
	year        = {2011},
	address     = {Torino, Italy},
	month       = {July}
}

@TECHREPORT{JCTVC-H0208,
	author      = {Naccari, M. and Gabriellini, A. and Mrak M.},
	title       = {Quantization for transform skipping},
	institution = {ITU-T},
	number      = {JCT-VC H0208},
	year        = {2012},
	address     = {San José, CA, USA},
	month       = {February}
}

@TECHREPORT{JCTVC-M0329,
	author      = {Li, B. and Sullivan, G.J. and Xu, J.},
	title       = {{Comparison of Compression Performance of HEVC Draft 10 with AVC High Profile}},
	institution = {ITU-T},
	number      = {JCT-VC M0329},
	year        = {2014},
	address     = {Incheon, South Korea},
	month       = {April}
}

@TECHREPORT{bossen-12-common-test-conditions,
	author      = {F. Bossen},
	title       = {Common test conditions and software reference configurations},
	institution = {ITU-T},
	number      = {JCT-VC I1100},
	year        = {2012},
	address     = {Geneva, Switzerland},
	month       = {May}
}

@BOOK{rao-01-transform-data-compression-book,
    author    = "K. R. Rao and P.C. Yip",
    title     = "The Transform and Data Compression Handbook",
    publisher = "Boca Raton",
    year      = "2001",
}

@BOOK{jayant-84-digital-coding-waveforms,
	author    = "N. S. Jayant and Peter Noll",
	title     = "Digital coding of waveforms",
	publisher = "Prentice Hall",
	year      = "1984",
}

@BOOK{britanak-06-dct-and-dst,
	author    = "V. Britanak and P.C. Yip and K. R. Rao",
	title     = "Discrete Cosine and Sine Transforms: General Properties, Fast Algorithms and Integer Approximations",
	publisher = "Academic Press",
	year      = "2004",
}

@BOOK{gersho-92-vector-quantization,
  title={Vector Quantization and Signal Compression},
  author={Gersho, A. and Gray, R.M.},
  isbn={9780792391814},
  lccn={lc91028580},
  series={Kluwer international series in engineering and computer science: Communications and information theory},
  url={http://books.google.fr/books?id=DwcDm6xgItUC},
  year={1992},
  publisher={Springer US}
}

@TECHREPORT{VCEG-AG11,
	author      = {Yan Ye and Marta Karczewicz},
	title       = {Improved Intra Coding},
	institution = {ITU-T SG16/Q6 VCEG},
	number      = {VCEG-AG11},
	year        = {2007},
	address     = {Shenzhen, China},
	month       = {October}
}

@TECHREPORT{VCEG-M33,
	author      = {G. Bj{\o}ntegaard},
	title       = {Calculation of average {PSNR} differences between {RD}-curves},
	institution = {ITU-T SG16/Q6 VCEG},
	number      = {VCEG-M33},
	year        = {2001},
	address     = {Austin, Texas},
	month       = {April}
}

@TECHREPORT{VCEG-AI11,
	author      = {G. Bj{\o}ntegaard},
	title       = {Improvements of the {BD-PSNR} model},
	institution = {ITU-T SG16/Q6 VCEG},
	number      = {VCEG-AI11},
	year        = {2008},
	address     = {Berlin, Germany},
	month       = {July}
}

@TECHREPORT{VCEG-AA06,
	author      = {Thomas Wedi and TK Tan},
	title       = {{AGH report - Coding Efficiency Improvements}},
	institution = {ITU-T SG16/Q6 VCEG},
	number      = {VCEG-AI11},
	year        = {2005},
	address     = {Nice, France},
	month       = {October}
}

@ARTICLE{fengzou-13-rdot-lloyd-intra,
	author   = {Feng Zou and Au, O.C. and Chao Pang and Jingjing Dai and Xingyu Zhang and Lu Fang},
	journal  = {Selected Topics in Signal Processing, IEEE Journal of},
	title    = {Rate-Distortion Optimized Transforms Based on the {Lloyd}-Type Algorithm for Intra Block Coding},
	year     = {2013},
	volume   = {7},
	number   = {6},
	pages    = {1072-1083},
	keywords = {Karhunen-Loeve transforms;block codes;discrete cosine transforms;video coding;BD-rate reduction;DCT;H.264/AVC;HEVC;HM9.0 software;IP mode;IP residue;Karhunen Loève transform;Lloyd-type algorithm;data reclassification;directional intra prediction;energy compaction;intra block coding;intra high efficiency;mode dependent directional transform;rate-distortion cost;rate-distortion optimized transforms;residue blocks;specially trained transforms;statistical properties;transform optimization;Correlation;Discrete cosine transforms;Optimization;Rate-distortion;Standards;Video coding;DCT;HEVC;KLT;RD;RDOT;intra;transform},
	doi      = {10.1109/JSTSP.2013.2274173},
	ISSN     = {1932-4553},
}

@INPROCEEDINGS{ye-08-intra-directional-scanning-mddt,
	author    = {Yan Ye and Karczewicz, M.},
	booktitle = {Image Processing, 2008. ICIP 2008. 15th IEEE International Conference on},
	title     = {Improved {H}.264 intra coding based on bi-directional intra prediction, directional transform, and adaptive coefficient scanning},
	year      = {2008},
	pages     = {2116-2119},
	keywords  = {adaptive codes;transforms;variable length codes;video coding;H.264 integer transform;H.264 intra coding;adaptive coefficient scanning;context adaptive variable length coding;directional intra prediction;directional transform;residual coefficient coding;Automatic voltage control;Bidirectional control;Decoding;Electronics packaging;Entropy coding;High definition video;IEC standards;ISO standards;Standards development;Video coding;H.264;Variable Length Coding;block transform;intra coding;intra prediction},
	doi       = {10.1109/ICIP.2008.4712205},
	ISSN      = {1522-4880},
}

@INPROCEEDINGS{zou-11-rdot-intra,
	author    = {Feng Zou and Au, O.C. and Chao Pang and Jingjing Dai},
	booktitle = {Visual Communications and Image Processing (VCIP), 2011 IEEE},
	title     = {Rate distortion optimized transform for intra block coding for HEVC},
	year      = {2011},
	month     = {Nov},
	pages     = {1-4},
	keywords  = {Karhunen-Loeve transforms;block codes;discrete cosine transforms;rate distortion theory;video coding;BDBR;H.264/AVC;HEVC;HMO.9;JMKTA soft ware;KLT;Karhunen Loeve transform;LoCo;MDDT;anisotropic features;data variation;directional intra prediction;discrete cosine transform;first order Markov signals;high efficiency video coding;image coding;intra block coding;intra frame coding;intra high efficiency condition;intra low complexity;intra prediction modes;mode dependent classification;mode dependent directional transform;mode dependent transform basis functions;optimal residual data separation;rate distortion optimized transform scheme;residue blocks;residue signals;statistical properties;structural properties;Bit rate;Discrete cosine transforms;Encoding;Image coding;Rate-distortion;Video coding;DCT;HEVC;KLT;Rate-Distortion},
	doi       = {10.1109/VCIP.2011.6115997},
}

@TECHREPORT{07-ye-mddt,
	author      = {Y. Ye and M. Karczewicz},
	title       = {Improved intra coding},
	institution = {ITU-T Q.6/SG11, VCEG},
	number      = {VCEG-AG11},
	year        = {2007},
	address     = {Shenzhen, China},
	month       = {October}
}

@PHDTHESIS{sezer-11-phd,
	author = {O.G. Sezer},
	title  = {Data-driven transform optimization for next generation multimedia applications},
	year   = {2011},
	school = {Georgia Institute of Technology}
}

@InProceedings{hanhart-14-subjective-evaluation-hdr,
	affiliation = {EPFL},
	author      = {Hanhart, P. and Korshunov, P. and Ebrahimi, T.},
	booktitle   = {{SPIE} {O}ptical {E}ngineering + {A}pplications},
	details     = {http://infoscience.epfl.ch/record/200538},
	documenturl = {http://infoscience.epfl.ch/record/200538/files/article.pdf},
	keywords    = {High dynamic range video; peak luminance; subjective evaluation; paired comparison; HDR monitor; Thurstone case V model},
	location    = {San Diego, California, USA},
	oai-id      = {oai:infoscience.epfl.ch:200538},
	oai-set     = {conf},
	review      = {NON-REVIEWED},
	series      = {Applications of Digital Image Processing},
	status      = {PUBLISHED},
	submitter   = {170391; 170391; 212659},
	title       = {Subjective {E}valuation of {H}igher {D}ynamic {R}ange {V}ideo},
	unit        = {MMSPL},
	year        = 2014
}

@ARTICLE{yeo-12-mode-dependent-transforms-intra-prediction-residuals,
	author   = {Chuohao Yeo and Yih Han Tan and Zhengguo Li and Rahardja, S.},
	journal  = {Circuits and Systems for Video Technology, IEEE Transactions on},
	title    = {Mode-Dependent Transforms for Coding Directional Intra Prediction Residuals},
	year     = {2012},
	month    = {April},
	volume   = {22},
	number   = {4},
	pages    = {545-554},
	keywords = {discrete transforms;learning (artificial intelligence);video coding;anisotropic image correlation model;coding directional intra prediction residuals;coding gains;directional image correlation model;four-point ODST-3;odd type-3 discrete sine transform;separable image correlation model;separable mode-dependent transforms;training;transform matrices;Correlation;Covariance matrix;Encoding;Image coding;Predictive models;Transforms;Video coding;HEVC;image coding;transforms;video coding},
	doi      = {10.1109/TCSVT.2011.2168291},
	ISSN     = {1051-8215},
}

@INPROCEEDINGS{yeo-11-low-complexity-mode-dependent-klt-intra,
	author    = {Chuohao Yeo and Yih Han Tan and Zhengguo Li},
	booktitle = {Image Processing (ICIP), 2011 18th IEEE International Conference on},
	title     = {Low-complexity mode-dependent KLT for block-based intra coding},
	year      = {2011},
	month     = {Sept},
	pages     = {3685-3688},
	keywords  = {computational complexity;discrete cosine transforms;image coding;DCT;HEVC reference software;MDDT;block-based intra coding;discrete cosine transform;discrete sine transform;intra prediction residuals;low-complexity mode-dependent KLT;mode-dependent separable transforms;mode-dependent transforms;orthogonal 4-point integer DST;transform coding;Conferences;Covariance matrix;Discrete cosine transforms;Image coding;Software;HEVC;Intra coding;Transforms},
	doi       = {10.1109/ICIP.2011.6116519},
	ISSN      = {1522-4880},
}

@BOOK{wien-15-hevc,
  title     = {High Efficiency Video Coding -- Coding Tools and Specification},
  author    = {Wien, Mathias},
  year      = {2015},
  publisher = {Springer}
}

@ARTICLE{zhao-12-video-coding-with-rdot,
	author   = {Xin Zhao and Li Zhang and Ma, Siwei and Wen Gao},
	journal  = {Circuits and Systems for Video Technology, IEEE Transactions on},
	title    = {Video Coding With Rate-Distortion Optimized Transform},
	year     = {2012},
	month    = {Jan},
	volume   = {22},
	number   = {1},
	pages    = {138-151},
	keywords = {Karhunen-Loeve transforms;Markov processes;block codes;iterative methods;optimisation;rate distortion theory;video coding;H.264/AVC video coding standard;MPEG-2;VCEG key technical area software platform;block-based discrete cosine transform;block-based transform coding;encoder;energy compaction;first-order Markov condition;image coding standard;interframe coding;intraframe coding;off-line training;optimum Karhunen-Loève transform;rate-distortion optimized transform;residual block coding;training process;transform basis function;transform domain;two-step iterative optimization technique;Discrete cosine transforms;Encoding;IP networks;Indexes;Rate-distortion;Video coding;Directional transform;H264/AVC;Karhunen–Loève transform (KLT);mode-dependent directional transform (MDDT);video coding},
	doi      = {10.1109/TCSVT.2011.2158363},
	ISSN     = {1051-8215},
}

@ARTICLE{ma-13-mode-dependent-tools-video-coding,
	author={Siwei Ma and Shiqi Wang and Qin Yu and Junjun Si and Wen Gao},
	journal={Selected Topics in Signal Processing, IEEE Journal of},
	title={Mode Dependent Coding Tools for Video Coding},
	year={2013},
	month={Dec},
	volume={7},
	number={6},
	pages={990-1000},
	keywords={image texture;statistical analysis;transforms;video coding;coefficient coding;compression performance;encoding process;local image statistical characteristics;mode dependent coding tools;oriented structure information;texture properties;transform coding;video coding technology;Complexity theory;Discrete cosine transforms;Prediction algorithms;Standards;Video coding;Intra prediction;mode dependent transform;residual reorder;transform coefficient scan;video coding},
	doi={10.1109/JSTSP.2013.2274951},
	ISSN={1932-4553},}

@book{loeve-77-probability-theory-i,
	author    = {M. Loève},
	title     = {Probability Theory I},
	isbn      = {9780387902104},
	lccn      = {76028332},
	series    = {Graduate Texts in Mathematics},
	url       = {http://books.google.fr/books?id = n5vgjacnWDQC},
	year      = {1977},
	publisher = {Springer New York}
}

@ARTICLE{starck-02-curvelet-transform,
	author   = {Starck, J.-L. and Candes, E.J. and Donoho, D.L.},
	journal  = {Image Processing, IEEE Transactions on},
	title    = {The curvelet transform for image denoising},
	year     = {2002},
	month    = {Jun},
	volume   = {11},
	number   = {6},
	pages    = {670-684},
	keywords = {Fourier transforms;Radon transforms;channel bank filters;filtering theory;image reconstruction;interpolation;wavelet transforms;white noise;Cartesian samples;Fourier space;Fourier-domain;approximate digital Radon transform;approximate digital implementations;concentric squares geometry;curvelet coefficients;curvelet transform;decimated wavelet transforms;exact reconstruction;filter bank;frequency domain;image denoising;interpolation;low computational complexity;overcomplete wavelet pyramid;pseudo-polar sampling set;rectopolar grid;ridgelet transform;stability;tree-based Bayesian posterior mean methods;trous wavelet filters;undecimated wavelet transforms;visual performance;wavelet-based image reconstruction;white noise;Computational complexity;Filter bank;Fourier transforms;Image denoising;Image reconstruction;Interpolation;Sampling methods;Stability;Wavelet domain;Wavelet transforms},
	doi      = {10.1109/TIP.2002.1014998},
	ISSN     = {1057-7149},
}

@ARTICLE{do-05-contourlet-transform,
	author   = {Do, M.N. and Vetterli, M.},
	journal  = {Image Processing, IEEE Transactions on},
	title    = {The contourlet transform: an efficient directional multiresolution image representation},
	year     = {2005},
	month    = {Dec},
	volume   = {14},
	number   = {12},
	pages    = {2091-2106},
	keywords = {channel bank filters;image reconstruction;image representation;image resolution;wavelet transforms;Fourier transform;contour segments;contourlet transform;curvelets;directional multiresolution analysis;discrete-domain construction;discrete-domain multiresolution;image edges;image expansion;multidirection expansion;multiresolution image representation;nonseparable filter banks;wavelet transform;Convergence;Discrete Fourier transforms;Discrete transforms;Discrete wavelet transforms;Filter bank;Fourier transforms;Geometry;Image representation;Image resolution;Wavelet transforms;Contourlets;contours;filter banks;geometric image processing;multidirection;multiresolution;sparse representation;wavelets;Algorithms;Artificial Intelligence;Computer Graphics;Image Enhancement;Image Interpretation, Computer-Assisted;Information Storage and Retrieval;Numerical Analysis, Computer-Assisted;Signal Processing, Computer-Assisted},
	doi      = {10.1109/TIP.2005.859376},
	ISSN     = {1057-7149},
}

@ARTICLE{zeng-08-directional-dct,
	author   = {Bing Zeng and Jingjing Fu},
	journal  = {Circuits and Systems for Video Technology, IEEE Transactions on},
	title    = {Directional Discrete Cosine Transforms #x2014;A New Framework for Image Coding},
	year     = {2008},
	month    = {March},
	volume   = {18},
	number   = {3},
	pages    = {305-313},
	keywords = {discrete cosine transforms;video coding;directional discrete cosine transform;image coding;square block shape;video coding;Directional discrete cosine transform;Discrete cosine transform;directional discrete cosine transform;discrete cosine transform (DCT);image coding;video coding},
	doi      = {10.1109/TCSVT.2008.918455},
	ISSN     = {1051-8215},
}

@ARTICLE{lim-09-adaptiove-rdot-dct-dst,
	author   = {Lim, Sung-Chang and Kim, Dae-Yeon and Jeong, Seyoon and Choi, Jin Soo and Choi, Haechul and Lee, Yung-Lyul},
	title    = {Rate-distortion optimized adaptive transform coding},
	journal  = {Optical Engineering},
	volume   = {48},
	number   = {8},
	pages    = {087004-087004-14},
	abstract = {We propose a rate-distortion optimized transform coding method that adaptively employs either integer cosine transform that is an integer-approximated version of discrete cosine transform (DCT) or integer sine transform (IST) in a rate-distortion sense. The DCT that has been adopted in most video-coding standards is known as a suboptimal substitute for the Karhunen–Loève transform. However, according to the correlation of a signal, an alternative transform can achieve higher coding efficiency. We introduce a discrete sine transform (DST) that achieves the high-energy compactness in a correlation coefficient range of −0.5 to 0.5 and is applied to the current design of H.264/AVC (advanced video coding). Moreover, to avoid the encoder and decoder mismatch and make the implementation simple, an IST that is an integer-approximated version of the DST is developed. The experimental results show that the proposed method achieves a Bjøntegaard Delta–RATE gain up to 5.49% compared to Joint model 11.0.},
	year     = {2009},
	isbn     = {0091-3286},
	doi      = {10.1117/1.3204239},
	URL      = { http://dx.doi.org/10.1117/1.3204239},
	eprint   = {}
}

@INPROCEEDINGS{zhao-10-rdot-intra,
	author    = {Xin Zhao and Li Zhang and Ma, Siwei and Wen Gao},
	booktitle = {Acoustics Speech and Signal Processing (ICASSP), 2010 IEEE International Conference on},
	title     = {Rate-distortion optimized transform for intra-frame coding},
	year      = {2010},
	month     = {March},
	pages     = {1414-1417},
	keywords  = {Karhunen-Loeve transforms;Transforms;Video coding},
	doi       = {10.1109/ICASSP.2010.5495468},
	ISSN      = {1520-6149},
}

@ARTICLE{chen-77-fast-dct,
	author   = {Wen-Hsiung Chen and Smith, C. and Fralick, S.},
	journal  = {Communications, IEEE Transactions on},
	title    = {A Fast Computational Algorithm for the Discrete Cosine Transform},
	year     = {1977},
	month    = {Sep},
	volume   = {25},
	number   = {9},
	pages    = {1004-1009},
	keywords = {Transforms;Computational complexity;Discrete Fourier transforms;Discrete cosine transforms;Discrete transforms;Equations;Fast Fourier transforms;Hardware;Laboratories;Matrix decomposition;Software algorithms},
	doi      = {10.1109/TCOM.1977.1093941},
	ISSN     = {0090-6778},
}

@MISC{cisco-13-vni-forecast,
	author       = {Cisco--Systems},
	title        = {{VNI} Forecast Highlights},
	year         = {2014},
	howpublished = {\url{http://www.cisco.com/web/solutions/sp/vni/vni_forecast_highlights}},
	note         = "[Accessed 3rd March 2015]"
}

@ARTICLE{sullivan-98-rdo-video-compression,
	author   = {Sullivan, G.J. and Wiegand, T.},
	journal  = {Signal Processing Magazine, IEEE},
	title    = {Rate-distortion optimization for video compression},
	year     = {1998},
	month    = {Nov},
	volume   = {15},
	number   = {6},
	pages    = {74-90},
	keywords = {data compression;optimisation;rate distortion theory;video coding;Lagrangian optimization;compression architecture;efficiency;high-compression video coding;hybrid video coding structure;motion representation;operational control;parameter settings;rate-distortion efficiency;rate-distortion optimization;refreshed regions;video compression;video encoder optimization;video sequences;video signal;waveform coding;Bit rate;Entropy coding;ISO;Motion compensation;Quantization;Rate-distortion;Switches;Video codecs;Video coding;Video compression},
	doi      = {10.1109/79.733497},
	ISSN     = {1053-5888},
}

@INPROCEEDINGS{yovanof-96-analysis-dct-coefficients,
	author={Yovanof, G.S. and Liu, S.},
	booktitle={Signals, Systems and Computers, 1996. Conference Record of the Thirtieth Asilomar Conference on},
	title={Statistical analysis of the DCT coefficients and their quantization error},
	year={1996},
	month={Nov},
	volume={1},
	pages={601-605 vol.1},
	keywords={Gaussian distribution;data compression;discrete cosine transforms;error analysis;image coding;image reconstruction;quantisation (signal);statistical analysis;transform coding;DCT coefficients;Kolmogorov-Smirnov goodness-of-fit test;chi//sup 2/ goodness-of-fit test;generalised Gaussian function;image compression;image reconstruction;natural images;probabilistic analysis;quantization error;statistical analysis;Data analysis;Discrete cosine transforms;Gaussian distribution;Image analysis;Image coding;Image reconstruction;Laplace equations;Quantization;Statistical analysis;Testing},
	doi={10.1109/ACSSC.1996.601095},
	ISSN={1058-6393},
}

@ARTICLE{lam-00-dct-coefficient-distribution,
	author={Lam, E.Y. and Goodman, J.W.},
	journal={Image Processing, IEEE Transactions on},
	title={A mathematical analysis of the {DCT} coefficient distributions for images},
	year={2000},
	month={Oct},
	volume={9},
	number={10},
	pages={1661-1666},
	keywords={Gaussian distribution;discrete cosine transforms;image coding;mathematical analysis;stochastic processes;transform coding;DCT coefficient distributions;Gaussian distribution;Laplacian distribution;central limit theorem;doubly stochastic model;empirical data;image coding;image statistics;mathematical analysis;standard pictures;statistical distributions;Discrete cosine transforms;Gaussian distribution;Histograms;Image coding;Laplace equations;Mathematical analysis;Mathematical model;Statistical distributions;Stochastic processes;Testing},
	doi={10.1109/83.869177},
	ISSN={1057-7149},
}

@ARTICLE{effros-04-suboptimal-klt,
	author={Effros, M. and Hanying Feng and Zeger, K.},
	journal={Information Theory, IEEE Transactions on},
	title={Suboptimality of the {K}arhunen-{L}o\`eve {T}ransform for transform coding},
	year={2004},
	month={Aug},
	volume={50},
	number={8},
	pages={1605-1619},
	keywords={Karhunen-Loeve transforms;entropy codes;source coding;transform coding;variable rate codes;Karhunen-Loeve transform;bit allocation;block transform;fixed-rate transform codes;inverse transforms;nonGaussian sources;optimal entropy code;quantisation;source coding;suboptimality;transform coding;transform coefficients;variable-rate transform codes;Bit rate;Decoding;Entropy;Helium;Karhunen-Loeve transforms;Pattern matching;Quantization;Source coding;Transform coding;Vectors;Bit allocation;lossy source coding;quantization;transform coding},
	doi={10.1109/TIT.2004.831787},
	ISSN={0018-9448},
}

@INPROCEEDINGS{goyal-00-high-resolution,
	author={Goyal, V.K.},
	booktitle={Information Theory, 2000. Proceedings. IEEE International Symposium on},
	title={High-rate transform coding: how high is high, and does it matter?},
	year={2000},
	month={},
	pages={207-},
	keywords={Gaussian processes;Karhunen-Loeve transforms;source coding;transform coding;Gaussian sources;KLT;Karhunen-Loeve transforms;high-rate transform coding;high-resolution quantization theory;optimal orthogonal transforms;scale invariance property;Bit rate;Convergence;Covariance matrix;Jacobian matrices;Karhunen-Loeve transforms;Lagrangian functions;Quantization;Rate distortion theory;Transform coding;Vectors},
	doi={10.1109/ISIT.2000.866505},
}

@ARTICLE{akansu-12-toeplitz-approximation,
	author={Akansu, A.N. and Torun, M.U.},
	journal={Selected Topics in Signal Processing, IEEE Journal of},
	title={Toeplitz Approximation to Empirical Correlation Matrix of Asset Returns: A Signal Processing Perspective},
	year={2012},
	month={Aug},
	volume={6},
	number={4},
	pages={319-326},
	keywords={Karhunen-Loeve transforms;approximation theory;autoregressive processes;correlation theory;discrete cosine transforms;eigenvalues and eigenfunctions;filtering theory;signal processing;AR(1);DCT;KLT;Karhunen-Loeve transform;Toeplitz approximation;asset return;autoregressive order one;discrete cosine transform;eigendecomposition;eigenvalue subset identification;eigenvector;energy packaging;intrinsic noise component;noise filtering;portfolio risk calculation;quantitative finance application;rebalancing calculation;signal processing perspective;symmetric empirical correlation matrix;Approximation methods;Correlation;Discrete cosine transforms;Eigenvalues and eigenfunctions;Portfolios;Symmetric matrices;AR(1) model;Karhunen-Loeve transform;discrete cosine transform;empirical correlation matrix;portfolio management;risk management},
	doi={10.1109/JSTSP.2012.2204724},
	ISSN={1932-4553},
}

@ARTICLE{helsingius-12-image-compression-multiple-transforms,
	author = "Mika Helsingius and Pauli Kuosmanen and Jaakko Astola",
	title = "Image compression using multiple transforms",
	journal = "Sig. Proc.: Image Comm.",
	pages = {513-529},
	year = {2000},
}

@INPROCEEDINGS{sole-09-sparsity-optimisation-separable-transforms,
	author={Sole, J. and Peng Yin and Yunfei Zheng and Gomila, C.},
	booktitle={Image Processing (ICIP), 2009 16th IEEE International Conference on},
	title={Joint sparsity-based optimization of a set of orthonormal 2-D separable block transforms},
	year={2009},
	month={Nov},
	pages={9-12},
	keywords={data compression;image coding;image reconstruction;iterative methods;optimisation;transforms;video coding;directional-adapted transforms;iterative method;joint sparsity-based optimization;orthonormal 2-D separable block transforms;reconstruction error;sparsity-based objective function;Cost function;Discrete cosine transforms;Discrete transforms;Frequency;Image reconstruction;Karhunen-Loeve transforms;Optimization methods;Quantization;Training data;Video coding;Coding;Separable Transforms;Sparsity;Transform optimization},
	doi={10.1109/ICIP.2009.5413929},
	ISSN={1522-4880},
}

@ARTICLE{yueh-05-eigenvalues-tridiagonal,
	title={Eigenvalues of several tridiagonal matrices},
	author={Yueh, Wen-Chyuan},
	journal={Applied Mathematics E-Notes},
	volume={5},
	number={66-74},
	pages={210--230},
	year={2005}
}

@ARTICLE{xu-09-intra-predictive-transforms,
	author={Jizheng Xu and Feng Wu and Wenjun Zhang},
	journal={Signal Processing, IEEE Transactions on},
	title={Intra-Predictive Transforms for Block-Based Image Coding},
	year={2009},
	month={Aug},
	volume={57},
	number={8},
	pages={3030-3040},
	keywords={block codes;frequency-domain analysis;image coding;transforms;block-based image coding;coding gain;computational complexity;frequency-domain prediction;inter-block prediction;intra-predictive transforms;stationary Gaussian sources;Image coding;Karhunen–LoÈve transform;Wiener prediction;intra prediction},
	doi={10.1109/TSP.2009.2018359},
	ISSN={1053-587X},
}

@INPROCEEDINGS{guo-14-transform-inter-layer-scalable,
	author={Liwei Guo and Karczewicz, M. and Jianle Chen},
	booktitle={Multimedia and Expo Workshops (ICMEW), 2013 IEEE International Conference on},
	title={Transform for inter-layer prediction residues in scalable video coding},
	year={2013},
	month={July},
	pages={1-6},
	keywords={data compression;discrete cosine transforms;video coding;DCT-II;SHVC reference software;SMuC0.1.1;compression efficiency;inter-layer prediction residues;scalable video coding;spatial transform;inter-layer prediction;scalable video coding;transform},
	doi={10.1109/ICMEW.2013.6618353},
}

@ARTICLE{puschel-08-algorithms-dct-dst,
	author={Puschel, M. and Moura, J.M.F.},
	journal={Signal Processing, IEEE Transactions on},
	title={{Algebraic Signal Processing Theory: Cooley--Tukey Type Algorithms for DCTs and DSTs}},
	year={2008},
	month={April},
	volume={56},
	number={4},
	pages={1502-1521},
	keywords={discrete cosine transforms;fast Fourier transforms;polynomial matrices;signal processing;Cooley-Tukey fast Fourier transform;DCT;DST;algebraic signal processing theory;discrete cosine transform;discrete sine transform;linear transform;polynomial algebra;transform matrices;Algebra;Application specific processors;Discrete Fourier transforms;Discrete cosine transforms;Discrete transforms;Fast Fourier transforms;Filters;Fourier transforms;Polynomials;Signal processing algorithms;Chinese remainder theorem;discrete Fourier transform (DFT);discrete cosine transform (DCT);discrete sine transform (DST);fast Fourier transform (FFT);polynomial algebra;representation theory},
	doi={10.1109/TSP.2007.907919},
	ISSN={1053-587X},
}

@INPROCEEDINGS{reznik-13-relationship-dct-dst,
	author={Reznik, Y.A.},
	booktitle={Acoustics, Speech and Signal Processing (ICASSP), 2013 IEEE International Conference on},
	title={Relationship between DCT-II, DCT-VI, and DST-VII transforms},
	year={2013},
	pages={5642-5646},
	keywords={discrete cosine transforms;video coding;DCT-II transforms;DCT-VI transforms;DST-VII transforms;discrete sine transforms;video coding;Abstracts;Discrete Fourier transforms;Discrete cosine transforms;IEC;IEC standards;DCT-II;DCT-VI;DST-VII;KLT;factorizations;video coding},
	doi={10.1109/ICASSP.2013.6638744},
	ISSN={1520-6149},
	month={May},
}

@INPROCEEDINGS{saxena-13-fast-transforms-intra-coding,
	author={Saxena, A. and Fernandes, F.C. and Reznik, Y.A.},
	booktitle={Data Compression Conference (DCC), 2013},
	title={Fast Transforms for Intra-prediction-based Image and Video Coding},
	year={2013},
	pages={13-22},
	keywords={discrete cosine transforms;image coding;DCT-DST transform scheme;DST-VII transforms;HEVC standard;HM reference software;computational complexity;discrete cosine transform;fast transforms;intraprediction based image coding;intraprediction based video coding;Discrete cosine transforms;Manganese;Standards;Vectors;Video coding;DCT;DST;HEVC;Video coding;compression;transforms},
	doi={10.1109/DCC.2013.9},
	ISSN={1068-0314},
	month={March},
}

@INPROCEEDINGS{li-08-laplacian-modeling-dct-coefficients,
	author={Jin Li and Gabbouj, M. and Takala, J. and Hexin Chen},
	booktitle={Multimedia and Expo, 2008 IEEE International Conference on},
	title={Laplacian modeling of DCT coefficients for real-time encoding},
	year={2008},
	pages={797-800},
	keywords={discrete cosine transforms;image coding;statistical analysis;transform coding;video coding;H.264;JPEG;Laplacian based statistical model;Laplacian modeling;computational complexity;digital image coding standards;discrete cosine transform;encoding process;multimedia applications;real-time encoding;video coding standards;zero-quantized DCT coefficients;Batteries;Computational complexity;Degradation;Digital images;Discrete cosine transforms;Encoding;Laplace equations;Predictive models;Video codecs;Video coding;Discrete cosine transform (DCT);computational complexity;quantization;real-time encoding},
	doi={10.1109/ICME.2008.4607555},
	month={June},
}

@MISC{jpeg,
	author={{Joint Photographic Experts Group}},
	title={{JPEG} Image Coding System, ISO/IEC 10918, ITU-T T.81},
	month={September},
	year={1992},
}

@MISC{jpeg2000,
	author={{Joint Photographic Experts Group}},
	title={{JPEG 2000} Image Coding System, ISO/IEC 15444-1:2000},
	month={December},
	year={2000},
}

@MISC{itu-03-avc,
	author={ITU-T},
	title={Recommendation {H}.264: Advanced video coding},
	month={May},
	year={2003},
	url={http://www.itu.int/rec/T-REC-H.264/en}
}

@MISC{itu-13-hevc,
	author={ITU-T},
	title={Recommendation {H}.265: High efficiency video coding},
	month={January},
	year={2013},
	url={http://www.itu.int/rec/T-REC-H.265/en}
}

@MISC{blender-tearsofsteel,
  title         = "Tears of {S}teel",
  note          = "\url{http://www.tearsofsteel.org}",
  year          = "2014",
  key           = "Blender - Mango Open Movie Project"
}

@TECHREPORT{yang-04-matrix-decomposition,
	title={Matrix Decomposition},
	author={Ming Yang},
	year={2004},
	institution={Northwestern University},
	address={Evanston, Illinois}
}

@MISC{cutler-52-dpcm,
  title={Differential quantization of communication signals},
  author={Cutler, C.C.},
  url={http://www.google.com/patents/US2605361},
  year={1952},
  month=jul # "~29",
  publisher={Google Patents},
  note={US Patent 2,605,361}
}

@ARTICLE{wang-04-ssim,
	author={Zhou Wang and Bovik, A.C. and Sheikh, H.R. and Simoncelli, E.P.},
	journal={Image Processing, IEEE Transactions on},
	title={Image quality assessment: from error visibility to structural similarity},
	year={2004},
	volume={13},
	number={4},
	pages={600-612},
	keywords={data compression;image coding;visual perception;JPEG;JPEG2000;distorted image;error sensitivity;error visibility;human visual perception;human visual system;image compression;image database;perceptual image quality assessment;reference image;structural information;structural similarity index;Data mining;Degradation;Humans;Image quality;Indexes;Layout;Quality assessment;Transform coding;Visual perception;Visual system;Algorithms;Data Interpretation, Statistical;Hypermedia;Image Enhancement;Image Interpretation, Computer-Assisted;Information Storage and Retrieval;Models, Statistical;Pattern Recognition, Automated;Quality Control;Reproducibility of Results;Sensitivity and Specificity;Signal Processing, Computer-Assisted;Subtraction Technique},
	doi={10.1109/TIP.2003.819861},
	ISSN={1057-7149},
	month={April}
}