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Facial Multi-Characteristics and Applications(英文版)

样章
作者:
Bob Zhang, Qijun Zhao, David Zhang
定价:
119.00元
ISBN:
978-7-04-049447-1
版面字数:
580.000千字
开本:
16开
全书页数:
暂无
装帧形式:
精装
重点项目:
暂无
出版时间:
2018-10-22
读者对象:
学术著作
一级分类:
自然科学
二级分类:
计算机科学与工程
三级分类:
人工智能
暂无
  • 前辅文
  • Chapter 1 Introduction
    • 1.1 Why Faces with Multi-Characteristics
    • 1.2 Facial Authentication Using Permanent Special Features
    • 1.3 Facial Beauty Analysis Using Permanent Common Features
    • 1.4 Facial Diagnosis by Disease Changed Features
    • 1.5 Expression Recognition by Stimulus Changed Features
    • 1.6 Outline of This Book
    • References
  • PART I FACIAL AUTHENTICATION
    • Chapter 2 Facial Authentication Overview
      • 2.1 Introduction
        • 2.1.1 History of Automated Facial Recognition Research
        • 2.1.2 Classification of Facial Recognition Scenarios
        • 2.1.3 Challenges in Automated Facial Recognition
      • 2.2 Permanent Unique Features for Facial Recognition
        • 2.2.1 Geometric Features
        • 2.2.2 Appearance Features
      • 2.3 Facial Recognition: Systems and Applications
        • 2.3.1 Major Modules in Automated Facial Recognition Systems
        • 2.3.2 Application Modes
      • 2.4 Chapters Overview
      • 2.5 Summary
      • References
    • Chapter 3 Evolutionary Discriminant Feature Based Facial Recognition
      • 3.1 Introduction
      • 3.2 Evolutionary Discriminant Feature Extraction
        • 3.2.1 Data Preprocessing: Centralization and Whitening
        • 3.2.2 Calculating the Constrained Search Space
        • 3.2.3 Searching: An Evolutionary Approach
        • 3.2.4 Bagging EDFE
      • 3.3 Facial Recognition Experiments
        • 3.3.1 Databases and Parameter Settings
        • 3.3.2 Investigation on Different Subspaces
        • 3.3.3 Investigation on Dimensionality of Feature Subspaces
        • 3.3.4 Performance Comparison
        • 3.3.5 Discussion
      • 3.4 Summary
      • References
    • Chapter 4 Facial Identification by Gabor Feature Based Robust Representation
      • 4.1 Introduction
      • 4.2 Related Work
        • 4.2.1 Sparse Representation Based Classification (SRC)
        • 4.2.2 Collaborative Representation Based Classification (CRC)
        • 4.2.3 Gabor Features
      • 4.3 Gabor-Feature Based Robust Representation and Classification
        • 4.3.1 Gabor-Feature Based Robust Representation
        • 4.3.2 Discussion on Occlusion Dictionary
        • 4.3.3 Gabor Occlusion Dictionary (GOD) Computing
        • 4.3.4 GRR Based Classification (GRRC)
        • 4.3.5 Time Complexity
      • 4.4 Experimental Results
        • 4.4.1 Gabor Features and Regularization of GOD Computing
        • 4.4.2 Face Recognition with Little Deformation
        • 4.4.3 Face Recognition with Pose and Expression Variations
        • 4.4.4 Recognition Against Occlusion
      • 4.5 Discussion of Regularization on Coding Coefficients
      • 4.6 Summary
      • References
    • Chapter 5 Three Dimension Enhanced Facial Identification
      • 5.1 Introduction
      • 5.2 Joint Face Alignment and 3D Face Reconstruction
        • 5.2.1 Overview
        • 5.2.2 Training Data Preparation
        • 5.2.3 Learning Landmark Regressors
        • 5.2.4 Estimating 3D-to-2D Mapping and Landmark Visibility
      • 5.3 Application to Face Recognition
      • 5.4 Experiments
        • 5.4.1 Protocols
        • 5.4.2 3D Face Reconstruction Accuracy
        • 5.4.3 Face Alignment Accuracy
        • 5.4.4 Face Recognition Accuracy
        • 5.4.5 Computational Efficiency
      • 5.5 Summary
      • References
  • PART II FACIAL BEAUTY ANALYSIS
    • Chapter 6 Facial Beauty Analysis Overview
      • 6.1 Introduction
      • 6.2 Permanent Common Features for Beauty Analysis
        • 6.2.1 Golden Ratio Rules
        • 6.2.2 Three Court Five
        • 6.2.3 Averageness Hypothesis
        • 6.2.4 Facial Symmetry and Beauty Perception
      • 6.3 Facial Beauty Analysis: Features and Systems
        • 6.3.1 Facial Feature Extraction
        • 6.3.2 Modeling Methods
        • 6.3.3 Applications
      • 6.4 Chapters Overview
      • 6.5 Summary
      • References
    • Chapter 7 Facial Beauty Analysis by Geometric Features
      • 7.1 Introduction
      • 7.2 Related Work
        • 7.2.1 Facial Geometric Representation
        • 7.2.2 Supervised Facial Beauty Model
        • 7.2.3 Facial Attractiveness Assessment
      • 7.3 Proposed Geometric Beauty Analysis Framework
        • 7.3.1 Geometric Beauty Analysis
        • 7.3.2 Hessian Regularization
        • 7.3.3 Hessian Semi-Supervised Learning with Random Projection
        • 7.3.4 Computational Complexity
        • 7.3.5 Remarks on the Convergence
      • 7.4 Experiments on the Proposed Dataset
        • 7.4.1 Our Established Dataset
        • 7.4.2 Low-Dimensional Distribution Visualization
        • 7.4.3 Experimental Results
        • 7.4.4 Verification
        • 7.4.5 Insightful Implications
      • 7.5 Experiment on M2B Dataset
        • 7.5.1 M2B Dataset
        • 7.5.2 Beauty Score Prediction
      • 7.6 Discussion
      • 7.7 Summary
      • References
    • Chapter 8 Facial Beauty Analysis by Landmark Model
      • 8.1 Introduction
      • 8.2 Related Work
      • 8.3 Key Point (KP) Definition
      • 8.4 Inserted Point (IP) Generation
        • 8.4.1 Quantitative Measure of the Precision of LMs
        • 8.4.2 Iterative Search for Optimal Positions of IPs
      • 8.5 The Optimized Landmark Model
        • 8.5.1 Training Data Preparation
        • 8.5.2 Generation and the Optimized LM
      • 8.6 Comparison with Other LMs
        • 8.6.1 Comparison of Approximation Error
        • 8.6.2 Comparison of Landmark Detection Error
      • 8.7 Applications
        • 8.7.1 Facial Beauty Analysis
        • 8.7.2 Facial Animation
      • 8.8 Summary
      • References
    • Chapter 9 A New Hypothesis for Facial Beauty Analysis
      • 9.1 Introduction
      • 9.2 Notations and the New Hypothesis
      • 9.3 Empirical Proof of the WA Hypothesis
        • 9.3.1 Face Image Dataset
        • 9.3.2 Attractiveness Score Collection
        • 9.3.3 Attractiveness Score Regression
        • 9.3.4 Testing the Hypothesis
      • 9.4 Corollary of the Hypothesis and Convex Hull-Based Face Beautification
        • 9.4.1 Corollary of the WA Hypothesis
        • 9.4.2 Convex Hull-Based Face Beautification
        • 9.4.3 Results
        • 9.4.4 Comparison and Discussion
      • 9.5 Compatibility with Other Hypotheses
        • 9.5.1 Compatibility with the Averageness Hypothesis
        • 9.5.2 Compatibility with the Symmetry Hypothesis
        • 9.5.3 Compatibility with the Golden Ratio Hypothesis
      • 9.6 Summary
      • References
    • Chapter 10 Facial Beauty Analysis: Prediction, Retrieval and Manipulation
      • 10.1 Introduction
      • 10.2 Facial Image Preprocessing and Feature Extraction
        • 10.2.1 Face Detection and Landmark Extraction
        • 10.2.2 Face Registration and Cropping
        • 10.2.3 Feature Extraction
      • 10.3 Facial Beauty Modeling
        • 10.3.1 Problem Formulation
        • 10.3.2 Regression Methods
      • 10.4 Facial Beauty Prediction
      • 10.5 Beauty-Oriented Face Retrieval
        • 10.5.1 Retrieval for Face Recommendation
        • 10.5.2 Retrieval for Face Beautification
      • 10.6 Facial Beauty Manipulation
        • 10.6.1 Exemplar-Based Manipulation
        • 10.6.2 Model-Based Manipulation
      • 10.7 Experiments
        • 10.7.1 Data Set
        • 10.7.2 Evaluation of Features for Facial Beauty Prediction
        • 10.7.3 Benefit of Soft Biometric Traits
        • 10.7.4 Results of Feature Fusion and Selection
        • 10.7.5 Results of Beauty-Oriented Face Retrieval
        • 10.7.6 Results of Facial Beauty Manipulation
      • 10.8 Summary
      • References
  • PART III FACIAL DIAGNOSIS
    • Chapter 11 Facial Diagnosis Overview
      • 11.1 Introduction
      • 11.2 Disease Changing Features for Facial Diagnosis
      • 11.3 Computerized Facial Diagnosis
      • 11.4 Chapters Overview
      • 11.5 Summary
      • References
    • Chapter 12 Non-Invasive Diabetes Mellitus Detection Using Facial Colors
      • 12.1 Introduction
      • 12.2 Facial Images and Dataset
        • 12.2.1 Facial Image Acquisition Device
        • 12.2.2 Facial Block Definition
        • 12.2.3 Facial Image Dataset
      • 12.3 Facial Block Color Feature Extraction
      • 12.4 Healthy Versus DM Classification with the SRC
      • 12.5 Experimental Results
      • 12.6 Discussion
      • 12.7 Summary
      • References
    • Chapter 13 Health Status Analysis by Facial Texture Features
      • 13.1 Introduction
      • 13.2 Facial Image Acquisition Device
      • 13.3 Facial Image Pre-Processing and the Dataset
      • 13.4 Facial Image Texture Features Extraction
      • 13.5 Classification
      • 13.6 Experiments
      • 13.7 Summary
      • References
    • Chapter 14 Computerized Facial Diagnosis Using Both Color and Texture Features
      • 14.1 Introduction
      • 14.2 Facial Image Dataset
        • 14.2.1 Facial Image Acquisition Device
        • 14.2.2 Facial Image Dataset
        • 14.2.3 Facial Block Definition
      • 14.3 Facial Feature Extraction
        • 14.3.1 Color Feature Using Space Distribution
        • 14.3.2 Texture Feature Extracted by Gabor Filter
      • 14.4 Healthy Classification Using Facial Gloss
      • 14.5 Facial Block-Based Disease Analysis
        • 14.5.1 Diagnosis Using Single Block
        • 14.5.2 Optimal Blocks Combination
      • 14.6 Summary
      • References
  • PART IV FACIAL EXPRESSION RECOGNITION
    • Chapter 15 Expression Recognition Overview
      • 15.1 Introduction
        • 15.1.1 Description of Facial Expressions
        • 15.1.2 Modalities in Facial Expression Recognition
        • 15.1.3 History of Facial Expression Recognition Research
        • 15.1.4 Challenges in Facial Expression Recognition
      • 15.2 Stimulus Changed Features for Expression Recognition
        • 15.2.1 Geometric vs. Appearance Features
        • 15.2.2 Global vs. Local Features
        • 15.2.3 Static vs. Dynamic Features
        • 15.2.4 Hand-crafted vs. Learned Features
      • 15.3 Facial Expression Recognition: Systems and Applications
        • 15.3.1 Workflow in Facial Expression Recognition Systems
        • 15.3.2 Applications
      • 15.4 Chapters Overview
      • 15.5 Summary
      • References
    • Chapter 16 Expression Recognition by Supervised LLE
      • 16.1 Introduction
      • 16.2 Independent Component Analysis
      • 16.3 Supervised Locally Linear Embedding
      • 16.4 Experiments
        • 16.4.1 Testing Methodology
        • 16.4.2 Experimental Results
      • 16.5 Summary
      • References
    • Chapter 17 Expression Recognition on Multiple Manifolds
      • 17.1 Introduction
      • 17.2 Multi-Manifold Based Facial Expression Recognition
        • 17.2.1 Learning Expression Manifolds
        • 17.2.2 Multi-Manifold Based Classification
        • 17.2.3 Dimensionality Selection
        • 17.2.4 The Procedures
      • 17.3 Experiments and Discussion
        • 17.3.1 Data Sets
        • 17.3.2 Feature Extraction
        • 17.3.3 Experimental Results
        • 17.3.4 Discussion
      • 17.4 Summary
      • References
    • Chapter 18 Cross Domain Facial Expression Recognition
      • 18.1 Introduction
      • 18.2 A Transfer Learning Based Approach
        • 18.2.1 Problem Formulation
        • 18.2.2 Overview of the Approach
        • 18.2.3 Training with Transfer Learning
        • 18.2.4 Evaluation Experiments
      • 18.3 A Discriminative Feature Adaptation Approach
        • 18.3.1 Problem Formulation
        • 18.3.2 Domain Matching
        • 18.3.3 Discriminative Analysis
        • 18.3.4 Optimization for DFA
        • 18.3.5 Evaluation Experiments
        • 18.3.6 Results and Discussion
      • 18.4 Summary
      • References
    • Chapter 19 Book Review and Future Work
      • 19.1 Book Recapitulation
      • 19.2 Challenges and Future Work
    • Index
    • 插图

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