Titre :	Introduction to cryptography : principles and applications
Type de document :	texte imprimé
Auteurs :	Hans Delfs, Auteur ; Helmut Knebl, Auteur
Editeur :	Berlin ; London ; Cham : Springer
Année de publication :	2002
Importance :	VI-XIV-310 p.
Format :	24 cm
ISBN/ISSN/EAN :	978-3-540-42278-5
Note générale :	Bibliogr. [297]-304 p. Index
Langues :	Français (fre)
Mots-clés :	Informatique -- Criptographie Informatique -- Cryptographic protocols Informatique -- Probabilistic algorithms Informatique -- Bit security
Index. décimale :	681.3.053 Problèmes de la conversion,du codage et du décodage.
Résumé :	Due to the rapid growth of digital communication and electronic data exchange, information security has become a crucial issue in industry, business, and administration. Modern cryptography provides essential techniques for securing information and protecting data. In the first part, this book covers the key concepts of cryptography on an undergraduate level, from encryption and digital signatures to cryptographic protocols. Essential techniques are demonstrated in protocols for key exchange, user identification, electronic elections and digital cash. In the second part, more advanced topics are addressed, such as the bit security of one-way functions and computationally perfect pseudo random bit generators. The security of cryptographic schemes is a central topic. Typical examples of provably secure encryption and signature schemes and their security proofs are given. Though particular attention is given to the mathematical foundations, no special background in mathematics is presumed. The necessary algebra, number theory and probability theory are included in the appendix. Each chapter closes with a collection of exercises. Answers to the exercises are provided on the Web page for this book
Note de contenu :	Sommair: 1. Introduction 2. Symmetric-key encryption 3. Public-key cryptography 4. Cryptographic protocols 5. Probabilistic algorithms 6. One-way functions and the basic asumptions 7. Bit security of one-way functions 8. One-way functions and pseudorandomness 9. Provably secure encrytion 10. Provably secure digital signature 11. Algebra and number theory 12. Probabilities and information theory

Introduction to cryptography : principles and applications [texte imprimé] / Hans Delfs, Auteur ; Helmut Knebl, Auteur . - Berlin ; London ; Cham : Springer, 2002 . - VI-XIV-310 p. ; 24 cm.
ISBN : 978-3-540-42278-5
Bibliogr. [297]-304 p. Index
Langues : Français (fre)

Mots-clés :	Informatique -- Criptographie Informatique -- Cryptographic protocols Informatique -- Probabilistic algorithms Informatique -- Bit security
Index. décimale :	681.3.053 Problèmes de la conversion,du codage et du décodage.
Résumé :	Due to the rapid growth of digital communication and electronic data exchange, information security has become a crucial issue in industry, business, and administration. Modern cryptography provides essential techniques for securing information and protecting data. In the first part, this book covers the key concepts of cryptography on an undergraduate level, from encryption and digital signatures to cryptographic protocols. Essential techniques are demonstrated in protocols for key exchange, user identification, electronic elections and digital cash. In the second part, more advanced topics are addressed, such as the bit security of one-way functions and computationally perfect pseudo random bit generators. The security of cryptographic schemes is a central topic. Typical examples of provably secure encryption and signature schemes and their security proofs are given. Though particular attention is given to the mathematical foundations, no special background in mathematics is presumed. The necessary algebra, number theory and probability theory are included in the appendix. Each chapter closes with a collection of exercises. Answers to the exercises are provided on the Web page for this book
Note de contenu :	Sommair: 1. Introduction 2. Symmetric-key encryption 3. Public-key cryptography 4. Cryptographic protocols 5. Probabilistic algorithms 6. One-way functions and the basic asumptions 7. Bit security of one-way functions 8. One-way functions and pseudorandomness 9. Provably secure encrytion 10. Provably secure digital signature 11. Algebra and number theory 12. Probabilities and information theory