MAPPING 2D TO 3D FORENSIC FACIAL RECOGNITION VIA BIO- INSPIRED ACTIVE APPEARANCE MODEL

Authors

  • Siti Zaharah Abd. Rahman Pattern Recognition Research Group, Center of Artificial Intelligent Technology, Faculty of Information Science and Technology, National University of Malaysia, Bangi, Selangor, Malaysia
  • Siti Norul Huda Sheikh Abdullah Pattern Recognition Research Group, Center of Artificial Intelligent Technology, Faculty of Information Science and Technology, National University of Malaysia, Bangi, Selangor, Malaysia
  • Lim Eng Hao Pattern Recognition Research Group, Center of Artificial Intelligent Technology, Faculty of Information Science and Technology, National University of Malaysia, Bangi, Selangor, Malaysia
  • Mohammed Hasan Abdulameer Pattern Recognition Research Group, Center of Artificial Intelligent Technology, Faculty of Information Science and Technology, National University of Malaysia, Bangi, Selangor, Malaysia
  • Nazri Ahmad Zamani Digital Forensic Department, CyberSecurity Malaysia, Seri Kembangan, Selangor, Malaysia
  • Mohammad Zaharudin A. Darus Digital Forensic Department, CyberSecurity Malaysia, Seri Kembangan, Selangor, Malaysia

DOI:

https://doi.org/10.11113/jt.v78.6939

Keywords:

Mapping, forensic facial recognition, AAM

Abstract

This research done is to solve the problems faced by digital forensic analysts in identifying a suspect captured on their CCTV. Identifying the suspect through the CCTV video footage is a very challenging task for them as it involves tedious rounds of processes to match the facial information in the video footage to a set of suspect’s images. The biggest problem faced by digital forensic analysis is modeling 2D model extracted from CCTV video as the model does not provide enough information to carry out the identification process. Problems occur when a suspect in the video is not facing the camera, the image extracted is the side image of the suspect and it is difficult to make a matching with portrait image in the database. There are also many factors that contribute to the process of extracting facial information from a video to be difficult, such as low-quality video. Through 2D to 3D image model mapping, any partial face information that is incomplete can be matched more efficiently with 3D data by rotating it to matched position. The first methodology in this research is data collection; any data obtained through video recorder. Then, the video will be converted into an image. Images are used to develop the Active Appearance Model (the 2D face model is AAM) 2D and AAM 3D. AAM is used as an input for learning and testing process involving three classifiers, which are Random Forest, Support Vector Machine (SVM), and Neural Networks classifier. The experimental results show that the 3D model is more suitable for use in face recognition as the percentage of the recognition is higher compared with the 2D model.

References

Md Ghani, N. A., Liong, C.Y. and Jemain, A. A. 2010. Analysis Of Geometric Moments As Features For Firearm Identification. Forensic Sci Int. 198(1-3):143-149.

Abdullah, S. N. H. S., Omar, K., Shahnorbanum, S., Pirahansiah, F. 2010. Multi Threshold Approach For License Plate Recognition System. WASET International Conference on Signal and Image Processing (ICSIP), 2010. Singapore. 25-27 August 2010. 1046-1050.

Spencer, W. 2012. Face Recognition: Facial Recognition System–TechFaq

Mohammed Hasan Abdulameer, Siti Norul Huda Sheikh Abdullah, and Zulaiha Ali Othman. 2014. A Modified Active Appearance Model Based on an Adaptive Artificial Bee Colony. The Scientific World Journal. 2014, Article ID 879031, 16 page.

M. Hassan, S. H. S. Abdullah, and Z. A. Othman. 2013. Face Recognition Based On Opposition Particle Swarm Optimization And Support Vector Machine. Proceedings IEEE International Conference on Signal and Image Processing Application (ICSIPA ’13). Melaka, Malaysia. 417-424.

D. Karaboga. 2005. An Idea Based On Honey Bee Swarm for Numerical Optimization, Technical Report-TR06, Erciyes University, Engineering Faculty, Computer Engineering Department.

Iain Matthews, Jing Xiao, and Simon Baker. 2007. 2D vs. 3D Deformable Face Models: Representational Power, Construction, and Real-TimeFitting [Online]. From: http://www.pitt.edu/~jeffcohn/biblio/Matthews%20Xiao%2 0Baker%202007.pdf on 26 January 2013.

Wang, Jun, Yen, Gary G., Polycarpou, Marios M. 2012. Advances in Neural Networks. Springer.

Neapolitan, Richard; Jiang, Xia. 2012. Contemporary Artificial Intelligence. Chapman & Hall/CRC. ISBN 978-1-4398-4469-4.

Sherk. 2011. Talking More 2D to 3D Conversion with Barry Sandrew from Legend3D [Online]. From: http://3dvision-blog.com/tag/shrek-3d-conversion/ on 26 January 2013.

David Sontag. 2012. Support Vector Machines & Kernels. New York University. [ Online]. From: http://cs.nyu.edu/~dsontag/courses/ml12/slides/lecture6.pdf on 01 February 2013.

Edwards, G. J., Taylor, C. J., Cootes, T. F. 1998. Interpreting Face Images Using Active Appearance Models. Proceedings Third IEEE International Conference on Automatic Face and Gesture Recognition. ISBN 0-8186-8344-9.

Downloads

Published

2015-12-21

Issue

Vol. 78 No. 2-2: Digital Media Issue

Section

Science and Engineering

License

Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.

How to Cite

MAPPING 2D TO 3D FORENSIC FACIAL RECOGNITION VIA BIO- INSPIRED ACTIVE APPEARANCE MODEL. (2015). Jurnal Teknologi, 78(2-2). https://doi.org/10.11113/jt.v78.6939