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Dan Zhang Supervisor: Prof. Y. Y. Tang 11 th PGDay.

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Presentation on theme: "Dan Zhang Supervisor: Prof. Y. Y. Tang 11 th PGDay."— Presentation transcript:

1 Dan Zhang Supervisor: Prof. Y. Y. Tang 11 th PGDay

2 Contents  Motivation  Phase Congruency - Phase congruency theory - Calculate PC using monogenic filters  Monogenic Signals Obtained From BEMD - Hilbert-Huang Transform - The improved BEMD - Monogenic features of BIMFs  Experimental Results  Conclusions 211th PGDay HKBU-COMP-dzhang

3 Illumination Invariant Face Recognition  “Illumination changes could be larger than the differences between individuals.”  Methods: Lambertian surface, illumination cone, quotient image, model-based method, etc.  Frequency domain methods:  High-frequency components: robust to the illumination changes while low- frequency components are highly sensitive to.  Phase local feature: Phase Congruency (PC) is robust to invariant to changes in image brightness or contrast 11th PGDay HKBU-COMP-dzhang3

4 4 Hilbert Huang Transform (HHT) Framework Properties: 1D: data-driven, non-parametric adaptive to the original signal, do not need predetermined wavelet function, good at handle non-stationary and nonlinear Signals 2D: can capture more singular information in high-frequency componentsProperties: 1D: data-driven, non-parametric adaptive to the original signal, do not need predetermined wavelet function, good at handle non-stationary and nonlinear Signals 2D: can capture more singular information in high-frequency components

5 Motivation 1. From High-frequency Viewpoint Earlier studies and our studies show that high-frequency components are comparatively more robust to the illumination changes, while the low frequency component is sensitive to them. Generally, high-frequency component only is enough for illumination invariant facial feature extraction. 11th PGDay HKBU-COMP-dzhang5

6 Motivation 2. From HHT Method Viewpoint HHT theory provides us another efficient method to decompose signals into different frequency IMFs components. Because of the data-driven property and adaptiveness of the sifting process, it is able to capture more representative features and especially more singular information in high- frequency IMFs. It is reasonable to infer that the high-frequency components obtained by HHT framework may have more discriminate ability. 3. From Phase Feature Viewpoint Phase information was found to be crucial to feature perception. Phase congruency is a dimensionless quantity that is invariant to changes in illumination. 11th PGDay HKBU-COMP-dzhang6

7 7 Facial Feature Extraction Design

8 Phase Congruency (PC): PC Definitions 1. Morrone andOwens Definition (1) does not offer satisfactory local features and it is sensitive to noise. 2. P. Kovesi: more sensitive measure of PC 11th PGDay HKBU-COMP-dzhang8

9 9 3. P. Kovesi: PC calculated by wavelet : even-symmetric (cosine) and odd-symmetric (sine) wavelets at scale n 4. P. Kovesi: PC extended to 2D use the 1D analysis over m orientations

10 Phase Congruency (PC): Calculate PC using Monogenic Filters Riesz transform Monogenic signal 11th PGDay HKBU-COMP-dzhang10

11 Hilbert Huang Transform (HHT) Framework Step1: Empirical Mode Decomposition (EMD) 11th PGDay HKBU-COMP-dzhang11 Step 2: Hilbert Transform

12 HHT Framework extended to 2D Bidimensional EMD (BEMD) 11th PGDay HKBU-COMP-dzhang12

13 BIMFs 11th PGDay HKBU-COMP-dzhang13 Our Method Surface Interpolation Method 1 st BIMF 2 nd BIMF 3 rd BIMF residue

14 Monogenic Features of BIMFs (2D analytical signal) 11th PGDay HKBU-COMP-dzhang14 HHT Framework extended to 2D Row1,left: 1 st BIMF Row1, right: Amplitude Row2,left: orientation Row2, right: phase angle

15 PC Calculated using Monogenic Filters 11th PGDay HKBU-COMP-dzhang15 PC of original face PC of 1 st BIMF PC of 2 nd BIMF PC of 3 rd BIMF Weighted PC

16 11th PGDay HKBU-COMP-dzhang16 Feature Extraction Algorithm

17 11th PGDay HKBU-COMP-dzhang17 Face Database

18 11th PGDay HKBU-COMP-dzhang18

19 Conclusions  We use the phase congruency quantity based on the BIMFs to address the illumination face recognition problem.  We firstly proposed a new BEMD method based on the improved Evaluation of local mean, then apply the Riesz transform to get the corresponding monogenic signals. Based on the new phase local information obtained, PC is calculated. We combine the PC on different BIMFs and use the weighted mean as the facial features input to the classification process. Compared with other phase Based face recognition method, our proposed method shows its efficiency. 11th PGDay HKBU-COMP-dzhang19

20 11th PGDay HKBU-COMP-dzhang20 15-Mar-2010

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