Cryptography

This course is listed

• in Aachen RWTHonline as Cryptography,
• in Bonn Basis as MA-INF 1103 - Cryptography.
• in eCampus as |2022/23 WiSe| MA-INF 1103 - Cryptography.

To participate in this course, you must join this course in eCampus [direct sign up]! This is only possible with a valid Uni ID of the university of Bonn.

Cryptography deals with methods for secure data transfer. In earlier times this was the domain of military and intelligence agencies, but today modern cryptography has grown into a key technology, enabling e-commerce and secure internet communications. Its many applications range from credit and debit cards, mobile phones, tv decoders, and electronic money to unforgeable electronic signatures under orders and contracts in the internet.

In the course, we discuss two of the current standard tools, namely AES and RSA. Further topics are key exchange, including group cryptography and discrete logarithm, digital signatures and identification, and cryptographic hash functions. We will consider these primitives in the modern light of reducible security (or provable security).

Michael Nüsken

• Plenum: Wednesday, 12⁰⁰ c.t.-14⁰⁰, b-it-max (b-it 0.109) and digital lecture room.
  Discussions of questions and items related to exercises, lectures and everything.
• Tutorial: Monday 14⁰⁰ c.t.-15⁴⁵, b-it-max (b-it 0.109) and digital tutorial room.
  Guided help for present exercises and topics.
  Presentations of just reviewed solutions.
• Consultation time (optional): Monday, 12¹⁵ c.t.-14⁰⁰, digital lecture room.
  This is for personal questions.

First meeting:

• Monday, 24 October 2022, 12⁰⁰ c.t.-16⁰⁰, Introduction & Speed grouping, b-it-max (b-it 0.109) and digital lecture room.

To ease your communication you can at any time appoint with each other in this free room.

You will find notes and exercises at sciebo until September 2023.

Lecture recordings, exercise handin and feedback are handled via the eCampus pages of the course.

Technical setup test: Monday, 30 January 2023, 13⁰⁰-14⁰⁰, online at eCampus (Technical test group).

Pre-exam meeting: Wednesday, 1 February 2023, in/after the plenum.

Exam1: Friday, 10 February 2023, 10⁰⁰-13³⁰, online via eCampus (Exam1 group).

Exam1 review: individual.

Exam2 (repetitions): Friday, 24 March 2023, 10⁰⁰-13³⁰, online via eCampus (Exam2 group).

Exam2 review: individual.

• Jonathan Katz & Yehuda Lindell (2015/2008). Introduction to Modern Cryptography, CRC Press. Webpage.
• Mike Rosulek (2017+). The Joy of Cryptography. Webpage including PDF.
• Boaz Barak (2019+). An Intensive Introduction to Cryptography. Webpage.
   
• Mihir Bellare & Shafi Goldwasser (2001). Lecture Notes on Cryptography. PDF.
• Dan Boneh & Victor Shoup (2017). A Graduate Course in Applied Cryptography.
• Johannes A. Buchmann (2004). Introduction to Cryptography. Birkhäuser Verlag, 2nd edition. ISBN 0-387-21156-X (hardcover), 0-387-20756-2.
• Joachim von zur Gathen (2015). CryptoSchool. Springer. ISBN 978-3-662-48425-8.
• Nigel Smart (2002), Cryptography: An Introduction. McGraw-Hill. ISBN 0-077-09987-7. This first edition is out of print, but a new edition is available online (PDF).
• Nigel Smart (2015). Cryptography Made Simple. Springer, ISBN 978-3-319-04041-7. Webpage including PDF. Errata.
• Howard M. Heys (2001). A Tutorial on Linear and Differential Cryptanalysis. Technical Report CORR 2001-17, Centre for Applied Cryptographic Research, Department of Combinatorics and Optimization, University of Waterloo, Mar. 2001. (Also appeared in Cryptologia, vol. XXVI, no. 3, pp. 189-221, 2002.) PDF on author's webpage.
• Douglas R. Stinson (2005). Cryptography - Theory and Practice. Discrete Mathematics and its Applications. Chapman & Hall / CRC Press, Boca Raton FL, 3rd edition. ISBN 1584885084, 600pp.

There is a long list of free online books about cryptography.

Further topics:

• James S. Kraft & Lawrence C. Washington (2014). An introduction to Number Theory with Cryptography.
• Steven Galbraith (2018). Mathematics of Public Key Cryptography. Webpage including PDF.

None.

4+2 SWS.

• Master in Media Informatics: Computer and Communication Technology, 8 ECTS credits.
• Master in Computer Science at University of Bonn: MA-INF 1103, 9 CP.