Includes bibliographical references (p. 517-527) and index
|Statement||Jonathan Katz, Yehuda Lindell|
|Series||Chapman & Hall/CRC cryptography and network security|
|LC Classifications||QA76.9.A25 K36 2008|
|The Physical Object|
|Pagination||xviii, 534 p. :|
|Number of Pages||534|
|LC Control Number||2007017861|
He is the co-author with Yehuda Lindell of Introdution to Modern Cryptography, Second Edition, published by CRC Yehuda Lindell is a professor in the Department of Computer Science at Bar-Ilan University where he conducts research on cryptography with a focus on the theory of secure computation and its application in practice. It's a dense, tough book which looks at modern cryptographic tools and concepts in an extremely precise, formal, logical way, offering a complete course in modern cryptography. Recommended for students or researchers of maths, computer science or cyber security of at least MSc level, as it is fairly advanced/5(37). In Serious Cryptography: A Practical Introduction to Modern Encryption, Jean-Philippe Aumasson has written not just some good footnotes to Schneier, but a valuable work on modern encryption and cryptography. A lot has changed since Applied Cryptography came out over 22 years ago and Aumasson does a good job in updating the reader/5(49). Introduction to modern cryptography offers its readers an in-depth, rigorous account of history, formal concepts, and definitions used today in the field of cryptography. Unlike other introductory texts, the authors strongly emphasize the importance of the mathematical foundations of cryptography. The book is divided into three parts.
Introduction to Modern Cryptography, Second Edition (Chapman & Hall/CRC Cryptography and Network Security Series) Cryptography is ubiquitous and plays a key role in ensuring data secrecy and integrity as well as in securing computer systems more broadly/5. Modern cryptography is a remarkable discipline. It is a cornerstone of computer and communi- cationssecurity, withendproductsthatareimminentlypractical. Yetitsstudytouchesonbranches of mathematics that may have been considered esoteric, and it brings together ﬁelds like number theory, computational-complexity theory, and probabiltity theory. Jonathan Katz and Yehuda Lindell. Introduction to Modern Cryptography is an introductory-level treatment of cryptography written from a modern, computer science perspective. It is unique in its blend of theory and practice, covering standardized cryptosystems widely used in practice without sacrificing rigor or an emphasis on foundations. There are already plenty of books which either give a rapid introduction to all areas, like that of Schneier, or one which gives an encyclopedic overview, like the Handbook of Applied Cryptography (hereafter called HAC). However, neither of these books is suitable for an undergraduate Size: 3MB.
The authors introduce the core principles of modern cryptography, with an emphasis on formal definitions, clear assumptions, and rigorous proofs of security. The book begins by focusing on private-key cryptography, including an extensive treatment of private-key encryption, message authentication codes, and hash functions/5. tice. This book addresses this issue by providing a comprehensive introduction to modern applied cryptography that is equally suited for students and practitioners in industry. Our book provides the reader with a deep understanding of how modern cryp-tographic schemes work. We introduce the necessary mathematical concepts in a. The authors introduce the core principles of modern cryptography, with an emphasis on formal definitions, clear assumptions, and rigorous proofs of security. The book begins by focusing on private-key cryptography, including an extensive treatment of private-key encryption, message authentication codes, and hash functions. Introduction to Modern Cryptography, CRC Press. Presents modern cryptography at a level appropriate for undergraduates, graduate students, or practitioners. Assumes mathematical maturity but presents all the necessary mathematical and computer science background. Konheim, Alan G. ().