周晓谊,现为海南大学信息科学与技术学院副教授。硕士就读期间,跟随吉林大学计算机学院赵永哲教授研究密码学。后于英国格林尼治大学(UNIVERSITY OF GREENWICH)师从DR.JIXINMA教授和DR.MILTOSPETRIDIS教授攻读博士学位,课题方向为信息安全与人工智能。至今主持或参与项目10余项,在图像处理、信息安全等领域的国际会议和国内外期刊发表学术论文20余篇,其中EI收录近10篇。
CHAPTER 1 INTRODUCTION
Section 1.1 Motivations: Security Based on Temporal Order
Section 1.1.1 Formal Characterization of Time-series
Section 1.1.2 BMQE System
Section 1.1.3 Temporal Ordered Image Cryptography
Section 1.1.4 Temporal Ordered Image Hiding
Section 1.2 Objectives: Information Security Using Temporal
Theory
Section 1.3 Outlines of the Main Contributions
Section 1.4 Book Structure
CHAPTER 2 LITERATURE REVIEW
Section 2.1 Temporal Basis
Section 2.1.1 Point-based Systems
Section 2.1.2 Interval-based Systems
Section 7.1.3 A point & Interval-based Theory
Section 2.1.4 Notion of Time-series
Section 2.2 Ergodic Matrix
Section 2.2.1 Finite Fields
Section 2.2.2 Definitions and Related Theorems of the EM
Section 2.2.3 Security Analysis of a Question Based on EM
Section 2.3 Cryptography
Section 2.3.1 History of Cryptography and Cryptanalysis
Section 2.3.2 Symmetric Cryptography vs. Asymmetric
Cryptography
Section 2.3.3 Multivariate Quadratic Polynomials
Section 2.4 Information Hiding
Section 2.4.1 History of Information Hiding
Section 2.4.2 Steganography vs. Watermarking
Section 2.4.3 Data Hiding Technologies in Images
Section 2.5 Conclusions
CHAPTER 3 BMQE SYSTEM
Section 3.1 Important Characteristics of EM for BMQE System
Section 3.2 BMQE Based on Ergodic Matrix
Section 3.2.1 BMQE Problem
Section 3.2.2 BMQE is NP-Complete
Section 3.3 Cryptanalysis of BMQE
Section 3.3.1 Methods Used in Solving MQ-problems
Section 3.3.2 Fixing Variables
Section 3.3.3 Relinearization
Section 3.4 Conclusions
CHAPTER 4 IMAGE CRYPTOGRAPHY
Section 4.1 Review of Image Cryptography
Section 4.1.1 Characteristics of Image Cryptography
Section 4.1.2 Image Cryptography Algorithms
Section 4.2 Hybrid-key Based Image Cryptography
Section 4.2.1 Encryption/Decryption and Authentication Process
Section 4.2.2 Image Confusion
Section 4.2.3 Image Diffusion
Section 4.3 Security Analysis
Section 4.3.1 Key Space Analysis
Section 4.3.2 Statistical Analysis
Section 4.3.3 Sensitivity-based Attack
Section 4.4 Performance Evaluation
Section 4.5 Conclusions
CHAPTER 5 IMAGE HIDING
Section 5.1 Related Results
Section 5.1.1 GA-based Watermarking
Section 5.1.2 SVM-based Watermarking
Section 5.2 Design Idea
Section 5.2.1 Motivation
Section 5.2.2 Embedding Strength with SVM
Section 5.2.3 Embedding Position with Optimized GA
Section 5.3 Algorithm SOGA: Watermarking Based on SVM and
Optimized-GA
Section 5.3.1 Communication Procedure
Section 5.3.2 Embedding Procedure
Section 5.3.3 Extracting Procedure
Section 5.4 Experimental Results
Section 5.4.1 Evaluation Criterion in System Performance
Section 5. d. 2 Results by Different Iteration Numbers
Section 5.4.3 Robustness Against Various Attacks
Section 5.5 Conclusion
CHAPTER 6 TEMPORAL APPLICATIONS
Section 6.1 Formal Characterization of Time-series
Section 6.1.1 Why Choosing Temporal
Section 6.1.2 Formalize the Characterization of Time-series
Section 6.2 Temporal-based Image Cryptosystem
Section 6.2.1 Eneryption-deeryption Process Using Temporal
Logic
Section 6.2.2 Expand the Key Size
Section 6.2.3 Adjust the Images
Section 6.2.4 Security Analysis
Section 6.3 Temporal-based Image Hiding
Section 6.3.1 Static Multiple Digital Watermarking with Temporal
Logic
Section 6.3.2 Dynamic Multiple Digital Watermarking Considering
Temporal Logic
Section 6.4 Conclusions
CHAPTER 7 APPLICATIONS IN RFID FOR
AGRICULTURAL PRODUCTS
Section 7.1 Development of RFID Anti-counterfeit Technology
Section 7.2 An Anti.counterfeiting Scheme for Agricultural
RFID
Section 7.3 BMQE for RFID Anti.Counterfeiting
Section 7.3.1 Key Generation
Section 7.3.2 Encryption Procedure
Section 7.3.3 Decryption Procedure
Section 7.4 SOGA for RFID Tampering Detection
Section 7.5 Conclusions
CHAPTER 8 CONCLUSIONS AND FUTURE WORK
Section 8.1 Conclusions
Section 8.2 Future Work Discussion
Reference
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