Learning from facial aging patterns for automatic age estimation

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Learning from facial aging patterns for automatic age estimation

Full text

Pdf (856 KB)

Source

International Multimedia Conference archive
Proceedings of the 14th annual ACM international conference on Multimedia table of contents

Santa Barbara, CA, USA

SESSION: Content session 2: machine learning in multimedia table of contents

Pages: 307 - 316

Year of Publication: 2006

ISBN:1-59593-447-2

Authors

Xin Geng	Deakin University, Victoria, Australia
Zhi-Hua Zhou	Nanjing University, Nanjing, China
Yu Zhang	Nanjing University, Nanjing, China
Gang Li	Deakin University, Victoria, Australia
Honghua Dai	Deakin University, Victoria, Australia

Sponsors

ACM: Association for Computing Machinery
SIGMULTIMEDIA: ACM Special Interest Group on Multimedia

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 3, Downloads (12 Months): 114, Citation Count: 3

Additional Information:

abstract references cited by index terms collaborative colleagues

Tools and Actions:	Request Permissions Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1180639.1180711 What is a DOI?

ABSTRACT

Age Specific Human-Computer Interaction (ASHCI) has vast potential applications in daily life. However, automatic age estimation technique is still underdeveloped. One of the main reasons is that the aging effects on human faces present several unique characteristics which make age estimation a challenging task that requires non-standard classification approaches. According to the speciality of the facial aging effects, this paper proposes the AGES (AGing pattErn Subspace) method for automatic age estimation. The basic idea is to model the aging pattern, which is defined as a sequence of personal aging face images, by learning a representative subspace. The proper aging pattern for an unseen face image is then determined by the projection in the subspace that can best reconstruct the face image, while the position of the face image in that aging pattern will indicate its age. The AGES method has shown encouraging performance in the comparative experiments either as an age estimator or as an age range estimator.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	The FG-NET Aging Database: http://sting.cycollege.ac.cy/~alanitis/fgnetaging/index.htm.
	2	T. R. Alley. Social and Applied Aspects of Perceiving Faces. Lawrence Erlbaum Associates, Hillsdale, NJ, 1988.
	3	M. Burt and D. Perrett. Perception of age in adult caucasian male faces: Computer graphic manipulation of shape and color information. Proc. Royal Society of London, Series B: Biological Sciences, 259(1355):137--143, 1995.
	4	Shinji DAIGO , Shinji OZAWA, Automatic pan control system for broadcasting ball games based on audience's face direction, Proceedings of the 12th annual ACM international conference on Multimedia, October 10-16, 2004, New York, NY, USA [doi>10.1145/1027527.1027634]
	5	Marc Davis , Michael Smith , John Canny , Nathan Good , Simon King , Rajkumar Janakiraman, Towards context-aware face recognition, Proceedings of the 13th annual ACM international conference on Multimedia, November 06-11, 2005, Hilton, Singapore [doi>10.1145/1101149.1101257]
	6	Douglas A. Reynolds , George R. Doddington , Mark A. Przybocki , Alvin F. Martin, The NIST speaker recognition evaluation - overview methodology, systems, results, perspective, Speech Communication, v.31 n.2-3, p.225-254, June 2000 [doi>10.1016/S0167-6393(99)00080-1]
	7	G. J. Edwards, A. Lanitis, and C. J. Cootes. Statistical face models: Improving specificity. Image and Vision Computing, 16(3):203--211, 1998.
	8	B. Fasel and J. Luettin. Automatic facial expression analysis: A survey. Pattern Recognition, 36(1):259--275, 2003.
	9	D. M. Gavrila, The visual analysis of human movement: a survey, Computer Vision and Image Understanding, v.73 n.1, p.82-98, Jan. 1999 [doi>10.1006/cviu.1998.0716]
	10	I. T. Jolliffe. Principal Component Analysis, 2nd Edition. Springer-Verlag, New York, 2002.
	11	Young H. Kwon , Niels da Vitoria Lobo, Age classification from facial images, Computer Vision and Image Understanding, v.74 n.1, p.1-21, April 1999 [doi>10.1006/cviu.1997.0549]
	12	A. Lanitis, C. Draganova, and C. Christodoulou. Comparing different classifiers for automatic age estimation. IEEE Trans. Systems, Man, and Cybernetics - Part B, 34(1):621--628, 2004.
	13	A. Lanitis , C. J. Taylor , T. F. Cootes, Toward Automatic Simulation of Aging Effects on Face Images, IEEE Transactions on Pattern Analysis and Machine Intelligence, v.24 n.4, p.442-455, April 2002 [doi>10.1109/34.993553]
	14	Aleš Leonardis , Horst Bischof, Robust recognition using eigenimages, Computer Vision and Image Understanding, v.78 n.1, p.99-118, April 2000 [doi>10.1006/cviu.1999.0830]
	15	Michael J. Lyons , Julien Budynek , Shigeru Akamatsu, Automatic Classification of Single Facial Images, IEEE Transactions on Pattern Analysis and Machine Intelligence, v.21 n.12, p.1357-1362, December 1999 [doi>10.1109/34.817413]
	16	I. Moon, K. Kim, J. Ryu, and M. Mun. Face direction-based human-computer interface using image observation and emg signal for the disabled. In Proc. IEEE Int'l Conf. Robotics and Automation, pages 1515--1520, Taipei, Taiwan, 2003.
	17	Peter Olivieri , James Gips , Jason McHugh, EagleEyes (video): eye controlled multimedia, Proceedings of the third ACM international conference on Multimedia, p.537-538, November 05-09, 1995, San Francisco, California, United States [doi>10.1145/217279.215317]
	18	A. J. O'Toole, K. A. Deffenbacher, D. Valentin, K. McKee, D. Huff, and H. Abdi. The perception of face gender: The role of stimulus structure in recognition and classication. Memory and Cognition, 26(1):146--160, 1998.
	19	A. J. O'Toole, T. Vetter, H. Volz, and E. Salter. Three-dimensional caricatures of human heads: Distinctiveness and the perception of age. Perception, 26:719--732, 1997.
	20	J. B. Pittenger and R. E. Shaw. Aging faces as viscal-elastic events: Implications for a theory of nonrigid shape perception. Journal of Experimental Psychology: Human Perception and Performance, 1(4):374--382, 1975.
	21	Narayanan Ramanathan , Rama Chellappa, Face Verification across Age Progression, Proceedings of the 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05) - Volume 2, p.462-469, June 20-26, 2005 [doi>10.1109/CVPR.2005.153]
	22	G. Rebel. Mehr Ausstrahlung durch Körpersprache. Gräfe und Unzer Verlag GmbH, München, 1997.
	23	Sam Roweis, EM algorithms for PCA and SPCA, Proceedings of the 1997 conference on Advances in neural information processing systems 10, p.626-632, July 1998, Denver, Colorado, United States
	24	Yoshinao Takemae , Kazuhiro Otsuka , Naoki Mukawa, Video cut editing rule based on participants' gaze in multiparty conversation, Proceedings of the eleventh ACM international conference on Multimedia, November 02-08, 2003, Berkeley, CA, USA [doi>10.1145/957013.957077]
	25	Bernard Tiddeman , Michael Burt , David Perrett, Prototyping and Transforming Facial Textures for Perception Research, IEEE Computer Graphics and Applications, v.21 n.5, p.42-50, September 2001
	26	M. E. Tipping and C. M. Bishop. Probabilistic principal component analysis. Journal of the Royal Statistical Society, Series B: Statistical Methodology, 61:611--622, 1999.
	27	Xiaozhou Wei , Lijun Yin , Zhiwei Zhu , Qiang Ji, Avatar-mediated face tracking and lip reading for human computer interaction, Proceedings of the 12th annual ACM international conference on Multimedia, October 10-16, 2004, New York, NY, USA [doi>10.1145/1027527.1027648]
	28	T. Wiberg. Computation of principal component when data are missing. In Proc. 2nd Symp. Computational Statistics, pages 229--236, Berlin, Germany, 1976.
	29	Yi Wu , Edward Y. Chang , Kevin Chen-Chuan Chang , John R. Smith, Optimal multimodal fusion for multimedia data analysis, Proceedings of the 12th annual ACM international conference on Multimedia, October 10-16, 2004, New York, NY, USA [doi>10.1145/1027527.1027665]
	30	Y. Wu, N. Thalmann, and D. Thalmann. A dynamic wrinkle model in facial animation and skin aging. Journal of Visualization and Computer Animation, 6:195--205, 1995.
	31	Shumin Zhai , Carlos Morimoto , Steven Ihde, Manual and gaze input cascaded (MAGIC) pointing, Proceedings of the SIGCHI conference on Human factors in computing systems: the CHI is the limit, p.246-253, May 15-20, 1999, Pittsburgh, Pennsylvania, United States [doi>10.1145/302979.303053]
	32	Lei Zhang , Yuxiao Hu , Mingjing Li , Weiying Ma , Hongjiang Zhang, Efficient propagation for face annotation in family albums, Proceedings of the 12th annual ACM international conference on Multimedia, October 10-16, 2004, New York, NY, USA [doi>10.1145/1027527.1027689]
	33	W. Zhao , R. Chellappa , P. J. Phillips , A. Rosenfeld, Face recognition: A literature survey, ACM Computing Surveys (CSUR), v.35 n.4, p.399-458, December 2003 [doi>10.1145/954339.954342]

CITED BY 3

	Xin Geng , Kate Smith-Miles , Zhi-Hua Zhou, Facial age estimation by nonlinear aging pattern subspace, Proceeding of the 16th ACM international conference on Multimedia, October 26-31, 2008, Vancouver, British Columbia, Canada
	Xin Geng , Zhi-Hua Zhou , Kate Smith-Miles, Automatic Age Estimation Based on Facial Aging Patterns, IEEE Transactions on Pattern Analysis and Machine Intelligence, v.29 n.12, p.2234-2240, December 2007
	Narayanan Ramanathan , Rama Chellappa , Soma Biswas, Computational methods for modeling facial aging: A survey, Journal of Visual Languages and Computing, v.20 n.3, p.131-144, June, 2009