Advanced Cryptology
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
MI-KRY.16 | Z,ZK | 5 | 2P+2C | Czech |
- Garant předmětu:
- Lecturer:
- Tutor:
- Supervisor:
- Department of Information Security
- Synopsis:
-
Students will learn the essentials of cryptanalysis and the mathematical principles of constructing symmetric and asymmetric ciphers. They will know the mathematical principles of random number generators. They will have an overview of cryptanalysis methods, elliptic curve cryptography and quantum cryptography, which they can apply to the integration of their own systems or to the creation of their own software solutions.
- Requirements:
- Syllabus of lectures:
-
1. Mathematical fundamentals of cryptanalysis of cyphers.
2. Random number generators.
3. Symmetric cryptography (block and stream encryption).
4. Asymmetric cryptography.
5. Unidirectional functions, hash functions.
6. Implementation of individual protocols.
7. Linear cryptanalysis.
8. Differential cryptanalysis.
9. Algebraic cryptanalysis.
10. Eliptic curves and their properties.
11. [2] Algorithms and cryptosystems based on elliptic curves.
12. Quantum computing and cryptography.
- Syllabus of tutorials:
-
1. Mathematical fundamentals of cryptanalysis of cyphers.
2. Random number generators.
3. Symmetric cryptography (block and stream encryption).
4. Asymmetric cryptography.
5. Unidirectional functions, hash functions.
6. Implementation of individual protocols.
7. Linear cryptanalysis.
8. Differential cryptanalysis.
9. Algebraic cryptanalysis.
10. Eliptic curves and their properties.
11. [2] Algorithms and cryptosystems based on elliptic curves.
12. Quantum computing and cryptography.
- Study Objective:
-
The goal of this module is to familiarize students with the basics of cryptanalysis and its use in the development of secure applications. Students will also know the latest security trends in the area of applied cryptography.
- Study materials:
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1. Menezes, A., Oorschot, P., Vanstone, S. ''Handbook of Applied Cryptography''. CRC Press, 1996. ISBN 0849385237.
2. Gregory, V., B., ''Algebraic Cryptanalysis'', Springer, 2009, ISBN: 978-0-387-88756-2.
3. Daemen, J.., Rijmen, V.: ''The Design of Rijndael: AES - The Advanced Encryption Standard'', Springer, 2002, ISBN: 3-540-42580-2.
4. Gruska, J., ''Quantum computing'', McGraw-Hill Companies, 1999, ISBN: 0-07-709503-0.
- Note:
- Further information:
- https://moodle-vyuka.cvut.cz/course/view.php?id=2242
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- Master branch Knowledge Engineering, in Czech, 2016-2017 (elective course)
- Master branch Computer Security, in Czech, 2016-2019 (compulsory course of the specialization)
- Master branch Computer Systems and Networks, in Czech, 2016-2019 (elective course)
- Master branch Design and Programming of Embedded Systems, in Czech, 2016-2019 (elective course)
- Master branch Web and Software Engineering, spec. Info. Systems and Management, in Czech, 2016-2019 (elective course)
- Master branch Web and Software Engineering, spec. Software Engineering, in Czech, 2016-2019 (elective course)
- Master branch Web and Software Engineering, spec. Web Engineering, in Czech, 2016-2019 (elective course)
- Master program Informatics, unspecified branch, in Czech, version 2016-2019 (VO)
- Master branch System Programming, spec. System Programming, in Czech, 2016-2019 (elective course)
- Master branch System Programming, spec. Computer Science, in Czech, 2016-2017 (elective course)
- Master specialization Computer Science, in Czech, 2018-2019 (elective course)
- Master branch Knowledge Engineering, in Czech, 2018-2019 (elective course)