Image Processing Reference
In-Depth Information
[3] Beng TS, Rosdi BA.
Finger-vein identiication using patern map and principal component
analysis.
In: 2011 IEEE international conference on signal image processing and applic-
ations; 2011:530-534.
[4] Song W, Kim T, Kim HC, Choi JH, Kong H-J, Lee S-R. A finger-vein verification sys-
tem using mean curvature.
Patern Recogn Let.
2011;32(11):1541-1547.
[5] Wu J-D, Liu C-T. Finger-vein patern identiication using principal component ana-
lysis and the neural network technique.
Expert Syst Appl.
2011;38(5):5423-5427.
[6] Wen C, Zhang J.
Palmprint recognition based on Gabor wavelets and 2-dimensional
PCA&PCA.
In: International conference on wavelet analysis and patern recognition;
2007:2-4.
[7] Zhao W, et al. Face recognition: a literature survey.
ACM Comput Surv (CSUR).
2003;35(4):399-458.
[8] Ebied RM. Feature extraction using PCA and kernel-PCA for face recognition.
Inter-
national conference on informatics and systems.
2012;8:72-77.
[9] Nhat VDM, Lee S.
Kernel-based 2DPCA for face recognition.
In: 2007 IEEE international
symposium on signal processing and information technology; 2007:35-39.
[10] Yu C, Qing H, Zhang L.
K2DPCA plus 2DPCA: an efficient approach for appearance based
object recognition.
In: 2009 3rd international conference on bioinformatics and biomed-
ical engineering; 2009:1-4.
[11] Lin S, Ph D. An introduction to face recognition technology.
Patern Recogn.
1997;1995:1-7.
[12] Zuo W, Zhang D, Wang K. Bidirectional PCA with assembled matrix distance metric
for image recognition.
IEEE T Syst Man Cybern B Cybern.
2006;36(4):863-872.
[13] Zhang D, Zhou Z-H. Two-directional two-dimensional PCA for efficient face repres-
entation and recognition.
Neurocomputing.
2005;69(1-3):224-231.
[14] Kim KI, Jung K, Kim HJ. Face recognition using kernel principal component analysis.
Signal Process.
2002;9(2):40-42.
[15] Damavandinejadmonfared S.
Kernel entropy component analysis using local mean-based k-
nearest centroid neighbour (LMKNCN) as a classifier for face recognition in video surveillance
camera systems.
In: IEEE international conference on intelligent computer communica-
tion and processing (ICCP); 2012:253-256.
[16] Damavandinejadmonfared S.
Finger vein recognition using linear kernel entropy compon-
ent analysis.
In: IEEE international conference on intelligent computer communication
and processing (ICCP); 2012:249-252.
[17] Damavandinejadmonfared S, Varadharajan V.
Finger vein recognition in row and column
directions using two dimensional kernel principal component analysis.
In: The 2014 interna-
tional conference on image processing, computer vision, and patern recognition; 2014.
[18] Peng H, Yang A.-P. Indefinite kernel entropy component analysis. In: 2010 Interna-
tional Conference on Multimedia Technology (ICMT). 29-31 Oct. 2010. p. 1, 4.
[19] Jenssen R. Kernel entropy component analysis.
IEEE T Patern Anal Mach Intell.
2010;32(5):847-860.
[20] Shekar BH, Sharmila Kumari M, Mestetskiy LM, Dyshkant NF. Face recognition using
kernel entropy component analysis.
Neurocomputing.
2011;74(6):1053-1057.
[21] Damavandinejadmonfared S, Varadharajan V.
Effective kernel mapping for one-dimen-
sional principal component analysis in finger vein recognition.
In: The 2014 international
conference on image processing, computer vision, and patern recognition; 2014.
[22] Shawe-Taylor J, Cristianini N.
Kernel methods for patern analysis.
New York, NY: Cam-
bridge University Press; 2004 p. 462.
Search WWH ::
Custom Search