Fukunaga, K.,
Koontz, W.L.G.,
Application of the Karhunen-Loeve Expansion to Feature Selection and
Ordering,
TC(19), No. 4, April 1970, pp. 311.
See also Algorithm for Finding Intrinsic Dimensionality of Data, An.
BibRef
7004
Kittler, J.V.[Josef V.],
Young, P.C.[Peter C.],
A new approach to feature selection based on the Karhunen-Loeve
expansion,
PR(5), No. 4, December 1973, pp. 335-352.
Elsevier DOI
0309
BibRef
Lowitz, G.E.,
Stability and dimensionality of Karhunen-Loêve multispectral image
expansions,
PR(10), No. 5-6, 1978, pp. 359-363.
Elsevier DOI
0309
BibRef
Hunt, B.R.,
Kubler, O.,
Karhunen-Loeve Multispectral Image Restoration, Part I: Theory,
ASSP(32), 1984, pp. 592-600.
BibRef
8400
Savoji, M.H.,
Burge, R.E.,
On Different Methods Based on the Karhunen-Loeve Expansion and
Used in Image Analysis,
CVGIP(29), No. 2, February 1985, pp. 259-269.
Elsevier DOI
BibRef
8502
Xia, X.G.[Xiang-Gen],
Suter, B.W.,
On vector Karhunen-Loeve transforms and optimal vector transforms,
CirSysVideo(5), No. 4, August 1995, pp. 372-374.
IEEE Top Reference.
0206
BibRef
And:
A systematic construction method for spatial-varying FIR filter banks
with perfect reconstruction,
ICIP94(I: 830-834).
IEEE DOI
9411
BibRef
Rajan, J.J.,
Rayner, P.J.W.,
Model Order Selection for the Singular-Value Decomposition and the
Discrete Karhunen-Loeve Transform Using a Bayesian-Approach,
VISP(144), No. 2, April 1997, pp. 116-123.
9706
BibRef
Carevic, D.,
Caelli, T.M.,
Region-Based Coding of Color Images Using Karhunen-Loeve Transform,
GMIP(59), No. 1, January 1997, pp. 27-38.
9703
BibRef
Greenshields, I.R.,
Rosienea, J.A.,
A Fast Wavelet Based Karhunen Loeve Transform,
PR(31), No. 7, July 1998, pp. 839-845.
Elsevier DOI
9807
BibRef
Levy, A.,
Rubinstein, J.,
Hilbert-space Karhunen-Loeve transform with application to image
analysis,
JOSA-A(16), No. 1, January 1999, pp. 28-35.
BibRef
9901
Lahme, B.,
Miranda, R.,
Karhunen-Loeve Decomposition in the Presence of Symmetry--Part I,
IP(8), No. 9, September 1999, pp. 1183-1190.
IEEE DOI
BibRef
9909
Levy, A.[Avi],
Lindenbaum, M.[Michael],
Sequential Karhunen-Loeve Basis Extraction and its Application to
Images,
IP(9), No. 8, August 2000, pp. 1371-1374.
IEEE DOI
0008
BibRef
Earlier:
ICIP98(II: 456-460).
IEEE DOI
9810
BibRef
Levy, A.[Avi],
Lindenbaum, M.[Michael],
Efficient Sequential Karhunen-Loeve Basis Extraction,
ICCV01(II: 739).
IEEE DOI
0106
BibRef
Kouassi, R.[Rémi],
Gouton, P.[Pierre],
Paindavoine, M.[Michel],
Approximation of the Karhunen-Loève transformation and its application
to colour images,
SP:IC(16), No. 6, February 2001, pp. 541-551.
Elsevier DOI
0101
BibRef
Foucherot, I.,
Gouton, P.,
Devaux, J.C.,
Truchetet, F.,
New methods for analysing colour texture based on the Karhunen-Loeve
transform and quantification,
PR(37), No. 8, August 2004, pp. 1661-1674.
Elsevier DOI
0407
BibRef
Puchala, D.,
Approximating the KLT by Maximizing the Sum of Fourth-Order Moments,
SPLetters(20), No. 3, March 2013, pp. 193-196.
IEEE DOI
1303
Karhunen-Loeve transform
BibRef
Bhairannawar, S.S.[Satish S.],
Sarkar, S.[Sayantam],
Raja, K.B.,
FPGA Implementation of Optimized Karhunen-Loeve Transform for Image
Processing Applications,
RealTimeIP(17), No. 2, April 2020, pp. 357-370.
Springer DOI
2004
BibRef
Bandoh, Y.[Yukihiro],
Ohbayashi, H.[Hiroki],
Takamura, S.[Seishi],
Kamikura, K.[Kazuto],
Yashima, Y.[Yoshiyuki],
Mathematical analysis of the energy compaction affected by the
dimensionality of Karhunen-Lòeve transform,
ICIP09(21-24).
IEEE DOI
0911
BibRef
Qu, Y.Y.[Yan-Yun],
Zheng, N.N.[Nan-Ning],
Li, C.H.[Cui-Hua],
Yuan, Z.J.[Ze-Jian],
Sequential updating algorithm for extracting the basis of
Karhunen-Loeve Transformation,
ICIP04(III: 1529-1532).
IEEE DOI
0505
BibRef
Yamashita, Y.[Yukihiko],
Ikeno, Y.[Yasuyuki],
Ogawa, H.,
Relative Karhunen-Loeve Transform Method for Pattern Recognition,
ICPR98(Vol II: 1031-1033).
IEEE DOI
9808
BibRef
Yamashita, Y.,
Ogawa, H.,
Relative Karhunen-Loeve operator,
ICPR94(C:168-170).
IEEE DOI
9410
BibRef
Ogawa, H.,
Karhunen-Loeve Subspace,
ICPR92(II:75-78).
IEEE DOI
9208
BibRef
Chapter on Image Processing, Restoration, Enhancement, Filters, Image and Video Coding continues in
Adaptive Filters .