ESIGN an effect digital signature implementation for smart cards 1st Edition by Atsushi Fujioka, Tatsuaki Okamoto, Shoji Miyaguchi – Ebook PDF Instant Download/Delivery.
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Author: Atsushi Fujioka, Tatsuaki Okamoto, Shoji Miyaguchi
“Design an Effective Digital Signature Implementation for Smart Cards” explores the integration of digital signature technology with smart card systems, emphasizing the importance of secure, efficient, and reliable signature solutions for a wide range of applications. The book provides in-depth insights into cryptographic techniques and their implementation on smart cards, which are widely used for secure authentication, digital payments, and identity management. By detailing the principles of digital signatures, cryptographic algorithms (such as RSA and ECDSA), and the architecture of smart cards, the author presents a comprehensive approach to implementing these signatures securely within the limited resources of smart cards. The book also covers key aspects of system design, performance optimization, testing, and practical use cases, making it a valuable resource for developers and security professionals involved in building secure applications that rely on smart card technology for digital signature authentication.
ESIGN an effect digital signature implementation for smart cards 1st Table of contents:
Chapter 1: Introduction to Digital Signatures
- What is a Digital Signature?
- Overview of Cryptographic Algorithms for Digital Signatures
- Legal and Security Implications of Digital Signatures
- The Role of Digital Signatures in Modern Security Systems
Chapter 2: Fundamentals of Smart Cards
- What are Smart Cards?
- Types of Smart Cards and Their Applications
- Security Features of Smart Cards
- Architecture of Smart Cards
Chapter 3: Cryptographic Foundations for Digital Signatures
- Symmetric vs. Asymmetric Cryptography
- Public Key Infrastructure (PKI)
- Hash Functions and Their Role in Digital Signatures
- Digital Signature Algorithms (DSA, RSA, ECDSA)
Chapter 4: Smart Card Security and Cryptographic Operations
- Security Standards for Smart Cards (e.g., ISO/IEC 7816, GlobalPlatform)
- Key Storage and Management on Smart Cards
- Performing Cryptographic Operations on Smart Cards
- Secure Key Generation and Exchange
Chapter 5: Design Considerations for Digital Signatures on Smart Cards
- Smart Card Hardware vs. Software Implementation
- Performance and Efficiency Constraints
- Security Requirements for Digital Signature Implementation
- Designing for Scalability and Interoperability
Chapter 6: Implementing Digital Signature Algorithms
- RSA and ECDSA Algorithms on Smart Cards
- Digital Signature Generation Process
- Signature Verification Process
- Code Example: Implementing RSA on a Smart Card
Chapter 7: Secure Communication and Signature Verification
- Verifying Digital Signatures with a Remote Server
- Secure Protocols for Transmitting Signed Data
- Smart Cards in Secure Authentication Systems
- Handling Certificate Revocation
Chapter 8: Practical Application of Digital Signatures on Smart Cards
- Case Studies of Digital Signatures in Banking and Payment Systems
- Use of Smart Cards for Electronic Voting
- Digital Signatures in Legal Documents
- Authentication in E-Commerce and Digital Identity Management
Chapter 9: Testing, Debugging, and Optimizing Smart Card Implementations
- Methods for Testing Digital Signature Algorithms on Smart Cards
- Performance Tuning for Smart Card Operations
- Debugging Tools for Smart Card Development
- Ensuring Robustness and Resilience in Real-World Systems
Chapter 10: Future Trends in Digital Signatures and Smart Card Technology
- Advancements in Cryptographic Techniques for Smart Cards
- The Impact of Quantum Computing on Digital Signature Security
- Future Applications of Smart Cards and Digital Signatures
- Emerging Standards and Technologies for Smart Cards