Foto von Julian Renner

Dipl.-Ing. Julian Renner

Technische Universität München

Professur für Coding for Communications and Data Storage (Prof. Wachter-Zeh)

Postadresse

Postal:
Theresienstr. 90
80333 München

Biografie

Julian Renner was born in Eggenfelden, Germany. He received the B.Sc. and M.Sc. degree (with high distinction) in electrical engineering from the Technische Universität München (TUM), München, Germany, in 2014 and 2016, respectively. In his Master’s Thesis, he worked on probabilistic shaping for the nonlinear fiber channel in a joint research project of the Institute for Communications Engineering, TUM, and the Coding and Visual Communication Group, Department of Photonics Engineering, Technical University of Denmark (DTU), Denmark. From February 2017 to October 2017, he conducted analytic- and simulation-based research in the field of waveform design for joint automotive radar and V2X communication at the Signal Processing Systems (SPS) Group, Department of Electrical Engineering, Eindhoven University of Technology (TU/e), Netherlands. Since November 2017, he is pursuing the Dr.-Ing. degree in the area of post-quantum cryptography at the Coding for Communications and Data Storage (COD) group, TUM. More detailed information can be found on his website.

Forschung

Assuming a cyber attack initiated from a sufficiently powerful quantum computer, several classical public-key algorithms become insecure.  These algorithms are based on factoring large integers and the discrete logarithm problem which are easy-to-solve in a post-quantum world. Thus, the National Institute of Standards and Technology (NIST) launched the Post-Quantum Cryptography Standardization. Julian Renner's research focuses on assessing the hardness of mathematical problems that can serve as the core to such cryptosystems, analysing the security of existing schemes and constructing new efficient public-key algorithms in the context of post-quantum cryptography.

Laufende Abschlussarbeiten

Publikationen

2020

  • Kunz, J.; Renner, J.; Maringer, G.; Schamberger, T.; Wachter-Zeh, A.: On Software Implementation of Gabidulin Decoders. Seventeenth International Workshop on Algebraic and Combinatorial Coding Theory (ACCT2020), 2020 mehr…
  • Lavauzelle, J.; Renner, J.: Cryptanalysis of a system based on twisted Reed–Solomon codes. Designs, Codes, and Cryptography, 2020 mehr… Volltext ( DOI )
  • Puchinger, S.; Renner, J.; Rosenkilde, J.: Generic Decoding in the Sum-Rank Metric. IEEE Int. Symp. Inform. Theory (ISIT), 2020 mehr…
  • Renner, J.: An Algorithm for Solving the Search Gabidulin Problem and its Application to Cryptograhpy. 2020 mehr…
  • Renner, J.: Randomized Decoding of Gabidulin Codes Beyond the Unique Decoding Radius. International Workshop on Code-Based Cryptography (CBCrypto), 2020 mehr…
  • Renner, J.; Jerkovits, T.; Bartz, H.; Puchinger, S.; Loidreau, P.; Wachter-Zeh, A.: Randomized Decoding of Gabidulin Codes Beyond the Unique Decoding Radius. The Eleventh International Conference on Post-Quantum Cryptography (PQCrytpo), 2020 mehr…
  • Renner, J.; Neri, A.; Puchinger, S.: Low-Rank Parity-Check Codes over Galois Rings. Designs, Codes, and Cryptography , 2020 mehr…
  • Renner, J.; Puchinger, S.; Wachter-Zeh, A.; Hollanti, C.; Freij-Holanti, R.: Low-Rank Parity-Check Codes over the Ring of Integers Modulo a Prime Power. IEEE Int. Symp. Inform. Theory (ISIT), 2020 mehr…
  • Schamberger, T.; Renner, J.; Sigl, G.; Wachter-Zeh A.: A Power Side-Channel Attack on the CCA2-Secure HQC KEM. 19th Smart Card Research and Advanced Application Conference (CARDIS2020), 2020 mehr…

2019

  • Laghezza, F.; Renner, J.; Willems, F.; Serbetli, S.; Alvarado, A.: Radar Sensing. Patent application 16/402932, 2019 mehr…
  • Puchinger, S., Renner, J., Wachter-Zeh, A.: Decoding High-Order Interleaved Rank-Metric Codes. 19th Joint Workshop on Communications and Coding (JWCC), 2019 mehr…
  • Renner, J., Jerkovits, T., Bartz, H.: Efficient Decoding of Interleaved Low-Rank Parity-Check Codes. XVI International Symposium "Problems of Redundancy in Information and Control Systems", 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Generic Decoding of Interleaved Rank-Metric Codes. Munich Workshop on Coding and Cryptography (MWCC) 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Generic Decoding of Interleaved Rank-Metric Codes. Munich Doctoral Seminar on Communications 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Twisted Codes in Rank Based Cryptography. Munich Doctoral Seminar on Communications, 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Interleaving Loidreau’s Rank-Metric Cryptosystem. XVI International Symposium "Problems of Redundancy in Information and Control Systems", 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Decreasing Key Sizes of a Rank-Metric Based Cryptosystem. Workshop on Coding, Cooperation, and Security in Modern Communication Networks, 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: Key Compression for Rank-Based Cryptosystems. DTU Algebra Group Colloquium, 2019 mehr…
  • Renner, J., Puchinger, S., Wachter-Zeh, A.: On a Rank-Metric Code-Based Cryptosystem with Small Key Size. 19th Joint Workshop on Communications and Coding (JWCC), 2019 mehr…
  • Welter, L.; Renner, J.; Wachter-Zeh, A.: Coding Theory for DNA Storage and Cryptography. IAS General Assembly 2019, 2019 mehr…

2018

  • Puchinger, S.; Renner, J.; Wachter-Zeh, A.: Twisted Gabidulin Codes in the GPT Cryptosystem. Sixteenth International Workshop on Algebraic and Combinatorial Coding Theory (ACCT), 2018 mehr…
  • Renner, J.: Datensicherheit im Zeitalter von Quantencomputern. TUM Tag der offenen Tür, 2018 mehr…
  • Renner, J.: Reparation of a Rank-Metric Public-Key Cryptosystem with Small Key Size. DLR/TUM/UUlm Workshop on Coding and Cryptography, 2018 mehr…
  • Renner, J.: Rank-Metric Public-Key Cryptosystems. Cryptography Seminar of Rennes, 2018 mehr…
  • Wachter-Zeh, A.; Puchinger, S.; Renner, J.: Repairing the Faure-Loidreau Public-Key Cryptosystem. IEEE Int. Symp. Inform. Theory (ISIT), 2018 mehr…

2017

  • Renner, J.; Fehenberger, T.; Yankov, P.; Da Ros, F.; Forchhammer, S.; Böcherer, G; Hanik, N.: Experimental Comparison of Probabilistic Shaping Methods for Unrepeated Fiber Transmission. IEEE/OSA Journal of Lightwave Technology 35 (22), 2017 mehr… Volltext ( DOI )

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