- Full Description
'Cryptographic Protocol: Security Analysis Based on Trusted Freshness' mainly discusses how to analyze and design cryptographic protocols based on the idea of system engineering and that of the trusted freshness component. A novel freshness principle based on the trusted freshness component is presented; this principle is the basis for an efficient and easy method for analyzing the security of cryptographic protocols. The reasoning results of the new approach, when compared with the security conditions, can either establish the correctness of a cryptographic protocol when the protocol is in fact correct, or identify the absence of the security properties, which leads the structure to construct attacks directly. Furthermore, based on the freshness principle, a belief multiset formalism is presented. This formalism’s efficiency, rigorousness, and the possibility of its automation are also presented. The book is intended for researchers, engineers, and graduate students in the fields of communication, computer science and cryptography, and will be especially useful for engineers who need to analyze cryptographic protocols in the real world. Dr. Ling Dong is a senior engineer in the network construction and information security field. Dr. Kefei Chen is a Professor at the Department of Computer Science and Engineering, Shanghai Jiao Tong University.
- Table of Contents
Table of Contents
- Introduction of Cryptographic Protocol.
- Informal Analysis.
- Informal Analysis of Cryptographic Protocols.
- Formal Approaches to Security Definition.
- Formal Approaches to Security Establishment of Authentication Protocols.
- Belief Multisets to Security Establishment of Authentication Protocols.
- Automation Approaches to Security Establishment of Authentication Protocols.
- Formal Approaches to Design of Authentication Protocols.
If you think that you've found an error in this book, please let us know by emailing to email@example.com . You will find any confirmed erratum below, so you can check if your concern has already been addressed. No errata are currently published