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Technische Universität München
Foto von Moritz Wiese

Dr. rer. nat. Moritz Wiese

  • Tel.: +49 (89) 289 - 23246
  • Raum: 0104.04.413
  • E-Mail: wiese(at)tum.de

Publications

Journal papers:

  1. M. Wiese and H. Boche. "ε-Almost collision-flat universal hash functions and mosaics of designs." Designs, Codes and Cryptography, 92:975-998, 2024.
  2. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "Message Transmission and Common Randomness Generation over MIMO Slow Fading Channels with Arbitrary Channel State Distribution." IEEE Transactions on Information Theory, 70(1):256-281, 2024.
  3. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "A Proof of a Single-Letter Capacity Formula for MIMO Gauss-Markov Rayleigh Fading Channels." IEEE Transactions on Information Theory, 69(11):6878-6896, 2023.
  4. M. Wiese, W. Labidi, C. Deppe and H. Boche. "Identification over Additive Noise Channels in the Presence of Feedback." IEEE Transactions on Information Theory, 69(11):6811-6821, 2023.
  5. C. R. Janda, M. Wiese, E. A. Jorswieck, H. Boche. "Arbitrarily Varying Wiretap Channels With Non-Causal Side Information at the Jammer." IEEE Transactions on Information Theory, 69(4):2635-2663, 2023.
  6. H. Boche, M. Cai, C. Deppe, R. Ferrara and M. Wiese. "Semantic security for quantum wiretap channels." Journal of Mathematical Physics, 63:092204, 2022.
  7. M. Wiese and H. Boche. "Mosaics of combinatorial designs for information-theoretic security." Designs, Codes and Cryptography, 90(3):593-632, 2022.
  8. M. Wiese and H. Boche. "Semantic Security via Seeded Modular Coding Schemes and Ramanujan Graphs." IEEE Transactions on Information Theory, 67(1):52-80, 2021.
  9. M. Wiese, T. J. Oechtering, K. H. Johansson, P. Papadimitratos, H. Sandberg and M. Skoglund. „Secure Estimation and Zero-Error Secrecy Capacity." IEEE Transactions on Automatic Control, 64(3):1047-1062, 2019.
  10. M. Wiese, J. Nötzel and H. Boche. “A Channel Under Simultaneous Jamming and Eavesdropping Attack—Correlated Random Coding Capacities Under Strong Secrecy Criteria.” IEEE Transactions on Information Theory, 62(7):3844–3862, 2016.
  11. J. Nötzel, M. Wiese and H. Boche. “The Arbitrarily Varying Wiretap Channel—Secret Randomness, Stability, and Super-Activation.” IEEE Transactions on Information Theory, 62(6):3504–3531, 2016.
  12. M. Wiese and H. Boche. “On the Weakest Resource for Coordination in Arbitrarily Varying Multiple Access Channels with Conferencing Encoders.” Problems of Information Transmission, 50(1):15-26, 2014.
  13. M. Wiese and H. Boche. “The arbitrarily varying multiple-access channel with conferencing encoders.” IEEE Transactions on Information Theory, 59(3):1405–1416, 2013.
  14. R.F. Wyrembelski, M. Wiese and H. Boche. “Strong secrecy in bidirectional broadcast channels with confidential messages.” IEEE Transactions on Information Forensics and Security, 8(2):324–334, 2013.
  15. H. Boche, B. Farrell, M. Ledoux and M. Wiese. “Expected supremum of a random linear combination of shifted kernels.” Journal of Fourier Analysis and Applications, 18(4):790–802, 2012.
  16. M. Wiese, H. Boche, I. Bjelaković and V. Jungnickel. “The compound multiple access channel with partially cooperating encoders.” IEEE Transactions on Information Theory, 57(5):3045–3066, 2011.

Book chapters:

  1. J. Nötzel, M. Wiese and H. Boche. „The discrete memoryless arbitrarily varying wiretap channel“, in Schaefer, R. et al. (Hrsg.), Information Theoretic Security and Privacy of Information Systems, Cambridge University Press, 2017.
  2. M. Wiese and H. Boche. “Strong secrecy for multiple access channels”, in Aydinian, H. et al. (eds.), Information theory, combinatorics, and search theory. In memory of Rudolf Ahlswede, Berlin: Springer. Lecture Notes in Computer Science 7777, 71-122, 2013.

Conferences:

  1. L. Torres-Figueroa, J. Voichtleitner, U. J. Mönich, T. Eichler, M. Wiese and H. Boche. "Exploiting Beamforming for Enforcing Semantic Secrecy in 5G NR mmWave Communications." In Proc. IEEE Global Communications Conference (GLOBECOM), 2024.
  2. J. Voichtleitner, C. Frisch, U. J. Mönich, M. Pehl, L. Torres-Figueroa, M. Wiese. "PUF Authentication for a Modular Coding Scheme." In Proc. 16th IEEE International Workshop on Information Forensics and Security (WIFS), 2024.
  3. J. Voichtleitner, M. Wiese and H. Boche. "Comparison of universal hash functions for physical layer security in wiretap channels." In Proc. 25th IEEE International Workshop on Signal Processing Advances in Wireless Communications (SPAWC), 2024.
  4. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "Common Randomness Generation from Finite Compound Sources." In Proc. 2024 IEEE International Symposium on Information Theory (ISIT), 2024.
  5. M. Spandri, R. Ferrara, C. Deppe, M. Wiese and H. Boche. "Information-Theoretically Secret Reed-Muller Identification with Affine Designs." In Proc. 28th European Wireless Conference, 2023.
  6. L. Torres-Figueroa, J. Voichtleitner, U. J. Mönich, M. Wiese and H. Boche. "Semantic Secrecy Assessment of Physical Layer Security in 5G NR Uplink Transmissions Under Fading Channel Conditions." In Proc. 2023 IEEE Global Communications Conference (GLOBECOM 2023), 2023.
  7. J. Voichtleitner, M. Wiese, A. Frank and H. Boche. "Improving upper and lower bounds for the security performance of wiretap channels." In Proc. 2023 IEEE Global Communications Conference (GLOBECOM 2023), 2023.
  8. M. Wiese and H. Boche. "ε-Almost Collision-Flat Universal Hash Functions Motivated by Information-Theoretic Security." In Proc. 2023 IEEE International Symposium on Information Theory (ISIT), 2023.
  9. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "A Lower and Upper Bound on the Epsilon-Uniform Common Randomness Capacity." In Proc. 2023 IEEE International Symposium on Information Theory (ISIT), 2023.
  10. W. Labidi, R. Ezzine, C. Deppe, M. Wiese and H. Boche. "Common Randomness Generation from Sources with Countable Alphabet." In Proc. IEEE International Conference on Communications (ICC), 2023.
  11. J. Voichtleitner, M. Wiese, A. Frank and M. Wiese. "Statistical verification of upper and lower bounds for the security performance of wiretap channels." In Proc. IEEE Wireless Communications and Networking Conference (WCNC), 2023.
  12. L. Torres-Figueroa, M. Hörmann, M. Wiese, U. J. Mönich, H. Boche, O. Holschke, M. Geitz. "Implementation of Physical Layer Security into 5G NR Systems and E2E Latency Assessment." In Proc. IEEE Global Communications Conference 2022 (GLOBECOM 2022), 2022.
  13. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "A General Formula for Uniform Common Randomness Capacity." In Proc. 2022 IEEE Information Theory Workshop (ITW), 2022.
  14. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "A Rigorous Proof of the Capacity of MIMO Gauss-Markov Rayleigh Fading Channels." In Proc. 2022 IEEE International Symposium on Information Theory (ISIT), 2022.
  15. H. Boche, M. Cai, M. Wiese. "Mosaics of Combinatorial Designs for Semantic Security on Quantum Wiretap Channels." In Proc. 2022 IEEE International Symposium on Information Theory (ISIT), 2022.
  16. A. Frank, J. Voichtleitner, M. Wiese and H. Boche. "Implementation of a Modular Coding Scheme for Secure Communication." In Proc. ICC 2022 - IEEE International Conference on Communications, 2022.
  17. L. Torres-Figueroa, U.J. Mönich, J. Voichtleitner, A. Frank, V.-C. Andrei, M. Wiese, H. Boche. "Experimental Evaluation of a Modular Coding Scheme for Physical Layer Security." In Proc. IEEE Global Communications Conference 2021 (GLOBECOM 2021), 2021.
  18. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "Outage Common Randomness Capacity Characterization of Multiple-Antenna Slow Fading Channels." In Proc. 2021 IEEE Information Theory Workshop (ITW), 2021.
  19. M. Wiese and H. Boche. "Mosaics of Combinatorial Designs for Privacy Amplification." In Proc. 2021 IEEE International Symposium on Information Theory, 2021.
  20. R. Ezzine, M. Wiese, C. Deppe and H. Boche. "Common Randomness Generation over Slow Fading Channels." In Proc. 2021 IEEE International Symposium on Information Theory, 2021.
  21. W. Labidi, H. Boche, C. Deppe and M. Wiese. "Identification over the Gaussian Channel in the Presence of Feedback." In Proc. 2021 IEEE International Symposium on Information Theory, 2021.
  22. H. Boche, M. Cai, M. Wiese, C. Deppe and R. Ferrara. "Semantic Security for Quantum Wiretap Channels." In Proc. 2020 IEEE International Symposium on Information Theory, 2020.
  23. S. Baur, N. Cai, M. Wiese and H. Boche. "Secret Key Generation from a Two Component Compound Source with Rate Constrained One Way Communication: Perfect Secrecy." In Proc. 2019 IEEE International Workshop on Information Forensics and Security, 2019.
  24. M. Wiese and H. Boche. "A Graph-Based Modular Coding Scheme Which Achieves Semantic Security." In Proc. 2019 IEEE International Symposium on Information Theory, 2019.
  25. M. Wiese, K. H. Johansson, T. J. Oechtering, P. Papadimitratos, H. Sandberg and M. Skoglund. “Secure Estimation for Unstable Systems.” In Proc. 55th IEEE Conference on Decision and Control, 2016.
  26. M. T. Vu, T. J. Oechtering, M. Wiese, M. Skoglund, "Successive refinement with cribbing and side information." In Proc. 2016 54th Annual Allerton Conference on Communication, Control, and Computing (Allerton), 2016.
  27. M. Wiese, K. H. Johansson, T. J. Oechtering, P. Papadimitratos, H. Sandberg and M. Skoglund. “Uncertain Wiretap Channels and Secure Estimation.” In Proc. 2016 IEEE International Symposium on Information Theory, 2016.
  28. M. Wiese and P. Papadimitratos. “Frequency hopping does not increase anti-jamming resilience of wireless channels.” In Proc. 2016 International Zurich Seminar on Communications, 2016.
  29. C. Janda, M. Wiese, J. Nötzel, H. Boche and E. Jorswieck. “Wiretap-Channels under Constrained Active and Passive Attacks.” In Proc. IEEE Conference on Communications and Network Security: Workshop on Physical-layer Methods for Wireless Security, 2015.
  30. M. Wiese, J. Nötzel and H. Boche. “The Arbitrarily Varying Wiretap Channel – Communication under Uncoordinated Attacks.” In Proc. 2015 IEEE International Symposium on Information Theory, 2015.
  31. J. Nötzel, M. Wiese and H. Boche. “The Arbitrarily Varying Wiretap Channel – Secret Randomness, Stability and Super-Activation.” In Proc. 2015 IEEE International Symposium on Information Theory, 2015.
  32. M. Wiese and H. Boche. “On the Weakest Resource for Coordination in AV-MACs with Conferencing Encoders.” In Proc. 2013 IEEE Information Theory Workshop, 2013.
  33. M. Wiese and H. Boche. “An achievable region for the wiretap multiple-access channel with common message.” In Proc. 2012 IEEE International Symposium on Information Theory, pages 249–253, 2012.
  34. R.F. Wyrembelski, M. Wiese and H. Boche. “Strong secrecy in bidirectional relay networks.” In Conference Record of the Forty Fifth Asilomar Conference on Signals, Systems and Computers, pages 217–221, 2011.
  35. M. Wiese and H. Boche. “The arbitrarily varying multiple-access channel with conferencing encoders.” In Proc. 2011 IEEE International Symposium on Information Theory, pages 993–997, 2011.
  36. M. Wiese, H. Boche and I. Bjelakovic. “The compound MAC with common message and partial channel state information.” In Proc. 2010 International Symposium on Information Theory and its Applications, pages 416–421, 2010.
  37. M. Wiese, F. Knabe, J.G. Klotz and A. Sezgin. “The performance of QPSK in low-SNR interference channels.” In Proc. 2010 International Symposium on Information Theory and its Applications, pages 708–713, 2010.
  38. M. Wiese, H. Boche, I. Bjelakovic and V. Jungnickel. “Downlink with partially cooperating base stations.” In Proc. 2010 IEEE Eleventh International Workshop on Signal Processing Advances in Wireless Communications, pages 1–5, 2010.
  39. F. Knabe, M. Wiese, C. Huppert and J.G. Klotz. “The wideband slope region of BPSK and QPSK for broadcast channels in the low-power regime.” In Proc. 2009 IEEE Information Theory Workshop, pages 440–444, 2009.
  40. M. Wiese, A. Giovanidis and G. Wunder. “Optimal power allocation policies for the reliable transmission of a single packet via ARQ protocols.” In Proc. 2008 42nd Asilomar Conference on Signals, Systems and Computers, pages 475–479, 2008.
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