Multivariate Public Key Cryptosystems [electronic resource] /by Jintai Ding, Jason E. Gower, Dieter S. Schmidt.
by Ding, Jintai [author.]; Gower, Jason E [author.]; Schmidt, Dieter S [author.]; SpringerLink (Online service).
Material type:
BookSeries: Advances in Information Security: 25Publisher: Boston, MA : Springer US, 2006.Description: XVIII, 260 p. online resource.ISBN: 9780387369464.Subject(s): Computer science | Data structures (Computer science) | Data encryption (Computer science) | Coding theory | Information theory | Computer Science | Data Structures, Cryptology and Information Theory | Data Encryption | Coding and Information Theory | Data Structures | Mathematics of Computing | Theory of ComputationDDC classification: 005.74 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | QA76.9.D35 (Browse shelf) | Available |
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| QA76.9.D35 Security in E-Learning | QA76.9.D35 Computer Viruses and Malware | QA76.9.D35 Quality of Protection | QA76.9.D35 Multivariate Public Key Cryptosystems | QA76.9.D35 Policies and Research in Identity Management | QA76.9.D35 Critical Infrastructure Protection II | QA76.9.D35 Algebraic Cryptanalysis |
Overview -- Matsumoto-Imai Cryptosystems -- Oil-Vinegar Signature Schemes -- Hidden Field Equations -- Internal Perturbation -- Triangular Schemes -- Direct Attacks -- Future Research.
Multivariate public key cryptosystems (MPKC) is a fast-developing new area in cryptography. In the past 10 years, MPKC schemes have increasingly been seen as a possible alternative to number theoretic-based cryptosystems such as RSA, as they are generally more efficient in terms of computational effort. As quantum computers are developed, MPKC will become a necessary alternative. Multivariate Public Key Cryptosystems systematically presents the subject matter for a broad audience. Information security experts in industry can use the book as a guide for understanding what is needed to implement these cryptosystems for practical applications, and researchers in both computer science and mathematics will find this book a good starting point for exploring this new field. It is also suitable as a textbook for advanced-level students. Written more from a computational perspective, the authors provide the necessary mathematical theory behind MPKC; students with some previous exposure to abstract algebra will be well-prepared to read and understand the material.
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