Details Details PDF BIBTEX RIS Title A Survey on Facial Features Detection Journal title International Journal of Electronics and Telecommunications Yearbook 2010 Volume vol. 56 Numer No 3 Authors Naruniec, Jacek Divisions of PAS Nauki Techniczne Publisher Polish Academy of Sciences Committee of Electronics and Telecommunications Date 2010 Identifier DOI: 10.2478/v10177-010-0035-y ; eISSN 2300-1933 (since 2013) ; ISSN 2081-8491 (until 2012) Source International Journal of Electronics and Telecommunications; 2010; vol. 56; No 3 References Antonini G. (2003), Independent Component Analysis and Support Vector Machine for Face Feature Extraction, null, 111. ; Beigzadeh M. (2008), Detection of face and facial features in digital images and video frames, null, 1. ; Y. Ben Jemaa (2009), Automatic local Gabor Features extraction for face recognition, ArXiv e-prints. ; Blanz V. (2002), Face identification across different poses and illuminations with a 3d morphable model, null, 202. ; Boser B. (1992), A training algorithm for optimal margin classifiers, null, 144. ; Celiktutan O. (2008), Multi-attribute robust facial feature localization, null, 1. ; Colbry D. (2005), Detection of anchor points for 3d face verification, SafeSecur05. ; Comon P. (1994), Independent component analysis, a new concept?, Signal Process, 36, 3, 287. ; Cootes T. (1998), Active appearance models, Lecture Notes in Computer Science, 1407. ; Cootes T. (1995), Active shape models-their training and application, Computer Vision and Image Understanding, 61, 1, 38. ; Craw I. (1992), Finding face features, null, 92. ; Cristianini N. (2000), An Introduction to Support Vector Machines and Other Kernel-based Learning Methods. ; Cristinacce D. (2003), Facial feature detection using adaboost with shape constraints, BMVC03. ; Donato G. (1999), Classifying facial actions, IEEE Transactions on Pattern Analysis and Machine Intelligence, 21, 10, 974. ; Duda R. (2000), Pattern Classification. ; Duffner S. (2005), A connexionist approach for robust and precise facial feature detection in complex scenes, null, 316. ; Erukhimov V. (2008), A bottom-up framework for robust facial feature detection, FG, 1. ; Fasel I. (2002), A comparison of gabor filter methods for automatic detection of facial landmarks, null, 0, 0242. ; Feris R. (2002), Hierarchical wavelet networks for facial feature localization, null. ; Fisher R. (1936), The use of multiple measurements in taxonomic problems, Annals of Eugenics, 7, 179, doi.org/10.1111/j.1469-1809.1936.tb02137.x ; Fukunaga K. (1992), Introduction to Statistical Pattern Recognition. ; Fukunaga K. (1975), The estimation of the gradient of a density function, with applications in pattern recognition, IEEE Trans. Information Theory, 21, 32. ; Gabor D. (1946), Theory of communication, JIEE, 93, 3, 429. ; Haj M. (2008), Automatic face and facial features initialization for robust and accurate tracking, ICPR, 1. ; Hamouz M. (2005), Feature-based affine-invariant localization of faces, IEEE Transactions on Pattern Analysis and Machine Intelligence, 27, 9, 1490. ; Hotta K. (1998), Scale invariant face detection method using higher-order local autocorrelation features extracted from log-polar image, null, 70. ; Hsu R.-L. (2002), Face detection in color images, IEEE Trans. Pattern Anal. Mach. Intell, 24, 5, 696. ; Ignasiak K. (2006), 3d data processing for 3d face modelling, null, 161. ; Jahanbin S. (2008), Automated facial feature detection from portrait and range images, null, 25. ; Jee H. (2004), Eye and face detection using svm, null, 577. ; Juell P. (1996), A hierarchical neural-network for human face detection, PR, 29, 5, 781, doi.org/10.1016/0031-3203(95)00129-8 ; Kim T. (2002), Component-based lda face descriptor for image retrieval, null. ; Lades M. (1993), Distortion invariant object recognition in the dynamic link architecture, IEEE Transactions on Computers, 42, 300. ; Li H. (2004), Fast subpixel accurate reconstruction using color structured light, null, 396. ; Lienhart R. (2003), Empirical analysis of detection cascades of boosted classifiers for rapid object detection, Pattern Recognition, 297. ; Matas J. (2002), Discriminative regions for human face detection, null. ; Milborrow S. (2008), Locating facial features with an extended active shape model, ECCV 08. ; Naruniec J. (2007), Rough Sets and Knowledge Technology, 187. ; Nguyen M. (2008), Facial feature detection with optimal pixel reduction svms, null. ; Pearson K. (1901), On lines and planes of closest fit to systems of points in space, Philosophical Magazine, 2, 6, 559, doi.org/10.1080/14786440109462720 ; Reinders M. (1997), Locating facial features in image sequences using neural networks, null, 230. ; Reisfeld D. (1992), Robust detection of facial features by generalized symmetry, ICPR92, I, 117. ; Rowley H. (1996), Neural network-based face detection, IEEE Transactions On Pattern Analysis and Machine intelligence, 20, 23. ; Russ T. (2006), 3d face recognition using 3d alignment for pca, null. ; Ryu Y.-S. (2002), Automatic extraction of eye and mouth fields from a face image using eigenfeatures and ensemble networks, Applied Intelligence, 17, 2, 171. ; Sobottka K. (1996), Face localization and facial feature extraction based on shape and color information, ICIP 96. ; Viola P. (2001), Advances in Neural Information Processing System 14, 1311. ; Viola P. (2001), Robust real-time object detection, International Journal of Computer Vision. ; Vukadinovic D. (2005), Fully automatic facial feature point detection using gabor feature based boosted classifiers, null. ; Wiskott L. (1997), Face recognition by elastic bunch graph matching, IEEE Trans. Pattern Analysis and Machine Intelligence, 19, 775. ; Yuasa M. (2008), An efficient 3d geometrical consistency criterion for detection of a set of facial feature points, IEICE - Trans. Inf. Syst, E91-D, 7, 1871. ; Zheng Z.-L. (2008), Enhanced active shape model for facial feature localization, null, 5, 2841. ; Zhu Z. (2005), Robust real-time eye detection and tracking under variable lighting conditions and various face orientations, Comput. Vis. Image Underst, 98, 1, 124.