The enhancement of active appearance model and active shape model in extracting facial features for age estimation

Age estimation through face image has a lot of potential computer applications, such as social media communication and access control. However, it is a challenging problem for the existing methods in computer systems to effectively estimate human facial age. There are many methods for age estimation...

Full description

Saved in:
Bibliographic Details
Main Author: Iqtait, Musab M. M. (Author)
Format: Thesis Book
Language:English
Subjects:
Tags: Add Tag
No Tags, Be the first to tag this record!
LEADER 04611cam a2200289 7i4500
001 0000098020
005 20210316090000.0
008 200225s2020 my eng
040 |a UniSZA 
050 0 0 |a TK7882.B56 
090 0 0 |a TK7882.B56   |b I68 2020 
100 1 |a Iqtait, Musab M. M.   |e author  
245 1 4 |a The enhancement of active appearance model and active shape model in extracting facial features for age estimation   |c Musab M.M Iqtait. 
264 0 |c 2020. 
300 |a xx,229 leaves;   |c 31 cm. 
336 |a text  |2 rdacontent 
337 |a unmediated  |2 rdamedia 
338 |a volume  |2 rdacarrier 
502 |a Thesis (Degree of Doctor of Philosophy in the Faculty of Informatics and Computing) - Universiti Sultan Zainal Abidin,2020 
504 |a Includes bibliographical references (leaves 180-194) 
505 0 |a 1. Introduction -- 2. Literature review -- 3. Research Methodology -- 4. Implementation and results -- 5. Results analysis and discussion -- 6. Conclusion and future work 
520 |a Age estimation through face image has a lot of potential computer applications, such as social media communication and access control. However, it is a challenging problem for the existing methods in computer systems to effectively estimate human facial age. There are many methods for age estimation, but they are significantly lacking in their performances, especially when compared to other related task performances in face recognition. Not only the reflection of face structure and face texture is incomplete, the complexity of feature has not been properly addressed. For this reason, facial features need to be highly compressed to avoid a high degree of complexity while accommodating larger users and increasing data relation. The objectives of this study are to develop a facial feature extra tion model using machine learning based approaches for extracting features from a human face and to map the features to an output label that estimates the predicted age (in years) of an individual. An integrated facial feature extraction model was de eloped which combines the power of both models, namely Active Appearance Mod 1 (AAM) and Active Shape Model (ASM), in order to obtain an innovative result on the problem of feature detection. A two-step app oach for combining AAM and ASM was suggested. In the first step, the ASM was utilized to locat the outer shap Ian marks of the face, and in the second step, AAM was utilized to locate the inner shape landmarks of the face. The experiments were tested on the publicly accessible MORPH and LFBW databases. The dataset consists of 490 training images and 210 test images per database. The developed algorithm was evaluated by measuring the performance of the facial feature extraction with respect to feature accuracy and error rates. A few prominent machine learning algorithms were then explored for age prediction. A hierarchical approach was developed to train the machine learning algorithms for facial features with age labels. Secondly, an expectation framework was developed to jointly address the issues of categorizing the test features into age labels based on the trained data. The performance was evaluated using Mean Absolute Error (MAE), Cumulative Score (CS) and processing time. The experimental results indicated that the proposed model is effective in extracting facial features and estimating age. For LFPW and MORPH databases, the error rates were 2.2628 and 2.7174 respectively. The best MAE value obtained from the proposed model is 2.94, achieved in Canonical Correlation Analysis (CCA). The best CS value obtained from the proposed model is 88.9%, achieved in CCA. The best processing time obtained from the proposed model is 0.036142, achieved in Support Vector Machine (SVM). These results are more promising when compared to several states of the art techniques like ASM and AAM, in which the error rates were 2.6607 and 3.1127 for the LFPW and 2.8801 and 2.0417 for the MORPH, respectively. The proposed model is proven to have shown the best results, and thus compensating shape and texture variations. The information obtained from these model yield semantic criteria to be used in content based image retrieval, further improvement can be made to make the proposed model even more robust and applicable.  
610 2 0 |a Universiti Sultan Zainal Abidin --   |x Faculty of Informatics and Computing  
650 0 |a Biometric identification  
650 0 |a Biometric identification --   |x Computer programs  
710 2 |a Universiti Sultan Zainal Abidin  
999 |a 1000178913  |b Thesis  |c Reference  |e Tembila Thesis Collection