References
[1]
Dietterich
T G,
Bakiri
G.
J Artif Intell Res,
1995, 2263-286
Google Scholar
https://scholar.google.com/scholar?author=Dietterich T G&author=Bakiri G&publication_year=1995&journal=J Artif Intell Res&volume=2&pages=263-286
[2]
Windeatt T, Ardeshir G. Boosted ECOC ensembles for face recognition. In: Proceedings of International Conference on Visual Information Engineering. California: AAAI Press, 2003. 165--168.
Google Scholar
https://scholar.google.com/scholar?&q=Windeatt T, Ardeshir G. Boosted ECOC ensembles for face recognition. In: Proceedings of International Conference on Visual Information Engineering. California: AAAI Press, 2003. 165--168&
[3]
Windeatt T, Smith R S. Weighted decoding ECOC for facial action unit classification. In: Proceedings of International Conference on Artificial Intelligence. California: AAAI Press, 2008. 26--30.
Google Scholar
https://scholar.google.com/scholar?&q=Windeatt T, Smith R S. Weighted decoding ECOC for facial action unit classification. In: Proceedings of International Conference on Artificial Intelligence. California: AAAI Press, 2008. 26--30&
[4]
Ghani R. Combining labeled and unlabeled data for text classification with a large number of categories. In: Proceedings of International Conference on Data Mining. California: AAAI Press, 2001. 597--598.
Google Scholar
https://scholar.google.com/scholar?&q=Ghani R. Combining labeled and unlabeled data for text classification with a large number of categories. In: Proceedings of International Conference on Data Mining. California: AAAI Press, 2001. 597--598&
[5]
Escalera
S,
Pujol
O,
Radeva
P.
IEEE Trans Patt Anal Mach Intell,
2010, 32120-134
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Escalera S&author=Pujol O&author=Radeva P&publication_year=2010&journal=IEEE Trans Patt Anal Mach Intell&volume=32&pages=120-134
[6]
Pujol
O,
Radeva
P,
Vitria
J.
IEEE Trans Patt Anal Mach Intell,
2006, 281001-1007
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Pujol O&author=Radeva P&author=Vitria J&publication_year=2006&journal=IEEE Trans Patt Anal Mach Intell&volume=28&pages=1001-1007
[7]
Alpaydin E, Mayoraz E. Learning error-correcting output codes from data. In: Proceedings of International Conference on Artificial Neural Networks. California: AAAI Press, 1999. 743--748.
Google Scholar
https://scholar.google.com/scholar?&q=Alpaydin E, Mayoraz E. Learning error-correcting output codes from data. In: Proceedings of International Conference on Artificial Neural Networks. California: AAAI Press, 1999. 743--748&
[8]
Utschick
W,
Weichselberger
W.
Neural Comput,
2001, 131065-1102
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Utschick W&author=Weichselberger W&publication_year=2001&journal=Neural Comput&volume=13&pages=1065-1102
[9]
Escalera
S,
Tax
D M J,
Pujol
O, et al.
IEEE Trans Patt Anal Mach Intell,
2008, 301-14
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Escalera S&author=Tax D M J&author=Pujol O&publication_year=2008&journal=IEEE Trans Patt Anal Mach Intell&volume=30&pages=1-14
[10]
Escalera
S,
Masip
D,
Puertas
E, et al.
Patt Recognit Lett,
2011, 32458-467
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Escalera S&author=Masip D&author=Puertas E&publication_year=2011&journal=Patt Recognit Lett&volume=32&pages=458-467
[11]
Simeone
P,
Marrocco
C,
Tortorella
F.
Patt Recognit,
2012, 2863-875
Google Scholar
https://scholar.google.com/scholar?author=Simeone P&author=Marrocco C&author=Tortorella F&publication_year=2012&journal=Patt Recognit&volume=2&pages=863-875
[12]
Garcia-Pedrajas
N,
Ortiz-Boyer
D.
Inf Fusion,
2011, 2111-130
Google Scholar
https://scholar.google.com/scholar?author=Garcia-Pedrajas N&author=Ortiz-Boyer D&publication_year=2011&journal=Inf Fusion&volume=2&pages=111-130
[13]
Zhou J, Suen C. Unconstrained numeral pair recognition using enhanced error correcting output coding: a holistic approach. In: Proceedings of International Conference on Document Analysis and Recognition. California: AAAI Press, 2005. 484--488.
Google Scholar
https://scholar.google.com/scholar?&q=Zhou J, Suen C. Unconstrained numeral pair recognition using enhanced error correcting output coding: a holistic approach. In: Proceedings of International Conference on Document Analysis and Recognition. California: AAAI Press, 2005. 484--488&
[14]
Allwein
E,
Schapire
R,
Singer
Y.
Mach Learn Res,
2002, 1113-141
Google Scholar
https://scholar.google.com/scholar?author=Allwein E&author=Schapire R&author=Singer Y&publication_year=2002&journal=Mach Learn Res&volume=1&pages=113-141
[15]
Ruda H, Snorrason M, Shue D. Framework for automatic target recognition optimization. Cambridge Charles River Analytics Technical Report No. R96451. 1997.
Google Scholar
https://scholar.google.com/scholar?&q=Ruda H, Snorrason M, Shue D. Framework for automatic target recognition optimization. Cambridge Charles River Analytics Technical Report No. R96451. 1997&
[16]
Jain
A K,
Duin
R P W,
Mao
J C.
IEEE Trans Patt Anal Mach Intell,
2000, 224-37
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Jain A K&author=Duin R P W&author=Mao J C&publication_year=2000&journal=IEEE Trans Patt Anal Mach Intell&volume=22&pages=4-37
[17]
Sun J X. Modern Pattern Recognition (in Chinese). Changsha: National Defense Industry Press, 2002. 112--118.
Google Scholar
https://scholar.google.com/scholar?&q=Sun J X. Modern Pattern Recognition (in Chinese). Changsha: National Defense Industry Press, 2002. 112--118&
[18]
Song
R,
Zhang
J,
Xia
S P, et al.
Acta Electron Sin,
2001, 291950-1953
Google Scholar
https://scholar.google.com/scholar?author=Song R&author=Zhang J&author=Xia S P&publication_year=2001&journal=Acta Electron Sin&volume=29&pages=1950-1953
[19]
Logan J D. Applied Mathematics. 2nd ed. Hoboken: Wiley-Interscience Ltd., 1996. 54--60.
Google Scholar
https://scholar.google.com/scholar?&q=Logan J D. Applied Mathematics. 2nd ed. Hoboken: Wiley-Interscience Ltd., 1996. 54--60&
[20]
UCI Machine Learning Repository. School of Information and Computer Sciences, University of California, Irvine, 2007.
Google Scholar
https://scholar.google.com/scholar?&q=UCI Machine Learning Repository. School of Information and Computer Sciences, University of California, Irvine, 2007&
[21]
Zhang
Y X,
Wang
X D,
Yao
X, et al.
Syst Eng Electron,
2012, 341366-1372
Google Scholar
https://scholar.google.com/scholar?author=Zhang Y X&author=Wang X D&author=Yao X&publication_year=2012&journal=Syst Eng Electron&volume=34&pages=1366-1372
[22]
Hastie T, Tibshirani R. Classification by pairwise grouping. In: Jordan M I, Kearns M J, Solla S A, eds. Advances in Neural Information Processing Systems 10. Cambridge: MIT Press, 1998. 451--471.
Google Scholar
https://scholar.google.com/scholar?&q=Hastie T, Tibshirani R. Classification by pairwise grouping. In: Jordan M I, Kearns M J, Solla S A, eds. Advances in Neural Information Processing Systems 10. Cambridge: MIT Press, 1998. 451--471&
[23]
Chapelle
O,
Vapnik
V,
Bousquet
O, et al.
Mach Learn,
2002, 46131-159
CrossRef
Google Scholar
https://scholar.google.com/scholar?author=Chapelle O&author=Vapnik V&author=Bousquet O&publication_year=2002&journal=Mach Learn&volume=46&pages=131-159
[24]
Demsar
J.
J Mach Learn Res,
2006, 21-30
Google Scholar
https://scholar.google.com/scholar?author=Demsar J&publication_year=2006&journal=J Mach Learn Res&volume=2&pages=1-30
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