i-manager Publications

Gradient Texture Classification Based On Age Prediction of Face Images

Basava Raju*, K. Y. Rama Devi**, P. V. Kumar***

*Research Scholar, Jawarharlal Nehru Technological University, Kakinada, A.P, India

**H.O.D, Department of Computer Science and Engineering, Chaitanya Bharathi Institute of Technology, Gandipet, Hyderabad.

***Professor, Department of Computer Science and Engineering, Osmania University, Hyderabad

Periodicity:September - November'2014
DOI : https://doi.org/10.26634/jpr.1.3.3216

Abstract

Skin recognition is used in many applications ranging from algorithms for face detection, predicting age, gender classification, and to objectionable image filtering. These data collections are growing rapidly and can therefore be considered as spatial data streams. For data stream classification, time is a major issue. However, these spatial data sets are too large to be classified effectively in a reasonable amount of time using existing methods. In this work, a novel and computational fast algorithm is proposed for predicting age of humans with PeanoCount Tree (P-Tree). The predicting system was developed and tested based on texture features extracted Local Gradient Patterns (LGP) and Gray Level Cooccurrence Matrix (GLCM) to give better and more predicting accuracy with a range of time period. The P-Tree is a spatial data organization that provides a lossless compressed representation of a spatial data set and facilitates efficient classification and other data mining techniques. Using P-tree structure, fast calculation of measurements, such as information gain, can be achieved. The authors compare P-tree decision tree induction classification and a classical decision tree induction method with respect to the speed at which the classifier can be built (and rebuilt when substantial amounts of new data arrive). Experimental results show that the P-tree method is significantly faster than existing classification methods, making the preferred method for mining on spatial data streams.

Keywords

How to Cite this Article?

Raju, K. B., Devi, Y. R., and Kumar, P. V. (2014). Gradient Texture Classification Based on Age Prediction of Face Images. i-manager’s Journal on Pattern Recognition, 1(3), 23-31. https://doi.org/10.26634/jpr.1.3.3216

References

[1]. Hwei-Jen Lin, Shu-Yi Wang, Shwu-Huey, and Yang –Ta-Kao, (2005). “Face Detection Basedon Skin Color Segmentation and NeuralNetwork”, IEEE Transactions, Vol. 2, pp.1144- 1149, ISBN: 0-7803-9422-4.

[2]. Son Lam Phung, AbdesselamBouzerdoum,and Douglas Chai, (2003). “Skin Segmentation Using Color and Edge Information”, IEEE Transactions, ISSPAISBN: 0- 7803-7946-2.

[3]. Domingos, P. and Hulten, G.,(2000). “Mining highspeed data streams”, Proceedings of ACMSIGKDD.

[4]. Domingos, P., & Hulten, G.,(2001). “Catching Up with the Data: Research Issues in Mining DataStreams”, DMKD.

[5]. J. R. Quinlan and R. L. Riverst, (1989). “Inferring decision trees using the minimum descriptionlength principle”, Information and Computation, Vol. 80, pp. 227-248.

[6]. Quinlan, J. R.,(1993). “C4.5: Programs for Machine Learning”, Morgan Kaufmann.

[7]. L. Breiman, J. H. Friedman, R. A. Olshen, and C. J.Stone, (1984). “Classfication and Regression Trees”, Wadsworth, Belmont.

[8]. R. Agrawal, S. Ghosh, T. Imielinski, B. Iyer, and A. Swami. (1992). “An interval classifier fordatabase mining applications”, VLDB.

[9]. J. Shafer, R. Agrawal, and M. Mehta, (1996), “SPRINT: A scalable parallel classifier for datamining”, VLDB.

[10]. William Perrizo, Qin Ding, Qiang Ding, Amlendu Roy, (2001). “On Mining Satellite and OtherRemotely Sensed Images”, DMKD.

[11]. Al abbadi, N.K. et. al., (2008). “Skin texture recognition using neural network,” Proceedings of the International Arab Conference on Information Technology, Tunisia.

[12]. Parekh, R., Mukherjee, A., (2009). “Advances in Telemedicine: A Multimedia-Based Texture Recognition Diagnostic System”, Proceedings of the Business and Health Administration Association (BHAA) International Conference, Chicago, Illinois, USA, pp. 88-97.

[13]. J. Brand and J. Mason, (2000). “A Comparative Assessment of Three Approaches to Pixel- Level Human Skin Detection,” Proceedings of IEEE International Conference Pattern Recognition, Vol. 1, pp. 1056-1059.

[14]. Smach, F. ET. al.,(2006). “Design of a neural networks classifier for face detection”, Science Publication, Journal of Computer Science, Vol. 2, No. 3, pp. 257-260.

[15]. Smith, J.R. et.al., (1994). “Quad tree segmentation for texture based image query”, Proceedings of the second ACM International Conference on Multimedia, San Francisco, California, United States, pp. 279 - 286.

[16]. Baochang Zhang, YongshengGao, Sanqiang Zhao, and JianzhuangLiu, (2010). “Local Derivative Pattern Versus Local BinaryPattern: Face Recognition With High-OrderLocal Pattern Descriptor”. IEEE Transactions on Image Processing, Vol. 19, No. 2.

[17]. TinkuAcharya, (2005). “Image Processing Principles and Applications” A John Wiley and Sons,Mc.

[18]. Qiang ding, William Perrizo, (2002). “Cluster analysis of spatial data using peano count tree”, Proceedings of CATA2002, San Francisco, USA.

[19] . Jiawei Han, MichelineKamber, (2001). “Data Mining: Concepts and Techniques”, MorganKaufmann.

[20]. Ding, Q., Ding, Q, & Perrizow (2002).“Association rule mining on remotely sensed images using peano count trees,” Pacific-Asia Conference on Knowledge Discovery and Data Mining,pp. 66-79.

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Gradient Texture Classification Based On Age Prediction of Face Images

Abstract

Keywords

How to Cite this Article?

References

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