Chair of Information and Coding Theory


  1. N.L. Johannsen and P.A. Hoeher, "Single-element beamforming using multi-mode antenna patterns," arXiv:1912.07052, Dec. 2019. arXiv
  2. N.L. Johannsen, N. Peitzmeier, P.A. Hoeher, and D. Manteuffel, "On the feasibility of multi-mode antennas in UWB and IoT applications below 10 GHz," arXiv:1912.07031, Dec. 2019. arXiv
  3. P.A. Hoeher, Visible Light Communications: Solutions Manual. Munich: Hanser Fachbuch, 2019, ISBN: 978-3-446-46303-5.
  4. P.A. Hoeher, Visible Light Communications: Theoretical and Practical Foundations. Munich: Hanser Fachbuch, 2019, ISBN: 978-3-446-46206-9, E-Book: ISBN: 978-3-446-46172-7.
  5. A. Krohn, G.J.M. Forkel, P.A. Hoeher, and S. Pachnicke, "LCD-based optical filtering suitable for non-imaging channel decorrelation in VLC applications," IEEE/OSA Journal of Lightwave Technology, vol. 37, no. 23, pp. 5892-5898, Dec. 2019. DOI
  6. R. Pöhlmann, G. Pedregosa, S. Caizzone, E. Staudinger, and P.A. Hoeher, "Multi-mode antenna enabled direction-of-arrival estimation for swarm navigation," in Proc. 16th IEEE Workshop on Positioning, Navigation and Communications (WPNC '19), Bremen, Oct. 2019.
  7. S. Bhattacharjee, M. Damrath, and P.A. Hoeher, "EXIT chart analysis of higher order modulation schemes in molecular communications," in Proc. ACM NanoCom, Dublin, Ireland, Sep. 2019.
  8. M. Hott, P.A. Hoeher, and S. Reinecke, "Magnetic communication using high-sensitive magnetic field detectors," Sensors, vol. 19, no. 15, article ID 3415, Aug. 2019. DOI
  9. G.J.M. Forkel, A. Krohn, and P.A. Hoeher, "Optical interference suppression based on LCD-filtering," Applied Sciences, vol. 9, no. 15, article ID 3134, Aug. 2019. DOI
  10. S.A. Almasri, R. Pöhlmann, N. Doose, P.A. Hoeher, and A. Dammann, "Modeling aspects of planar multi-mode antennas for direction-of-arrival estimation," IEEE Sensors Journal, vol. 19, no. 12, pp. 4585-4597, June 2019. DOI
  11. R. Pöhlmann, S.A. Almasri, S. Zhang, T. Jost, A. Dammann, and P.A. Hoeher, "On the potential of multi-mode antennas for direction-of-arrival estimation," IEEE Transactions on Antennas and Propagation, vol. 67, no. 5, pp. 3374-3386, May 2019. DOI
  12. P.A. Höher and J. Mietzner, "Integrative Lichtqualität - Zukünftig mit sichtbarer Lichtkommunikation kombinierbar?", LiTG Zukunftskonferenz Licht, Hamburg, Germany, pp. 154-158, May 2019.
  13. S. Zhang, T. Jost, R. Pöhlmann, A. Dammann, D. Shutin, and P.A. Hoeher, "5G precise positioning based on curvature of arrival by a large-scale antenna array," IEEE Wireless Communication Letters, vol. 8, no. 2, pp. 504-507, Apr. 2019.
  14. J. Sticklus, P. A. Hoeher, and R. Röttgers, "Optical underwater communication: The potential of using converted green LEDs in coastal waters," IEEE Journal of Oceanic Engineering, vol. 44, no. 2, pp. 535-547, Apr. 2019. DOI
  15. W. Haselmayr, A. Springer, R. Schober, C. Alexiou, H. Schotten, H. Boche, P.A. Hoeher, F. Dressler, and G. Fischer, "Integration of molecular communication systems into future generation mobile networks," in Proc. 6G Wireless Summit, Levi, Finland, Mar. 2019.
  16. P.A. Hoeher, "FSK-based simultaneous wireless information and power transfer in inductively coupled resonant circuits exploiting frequency splitting," IEEE Access, vol. 7, pp. 40183-40194, Mar. 2019. DOI
  17. N.L. Johannsen, N. Doose, and P.A. Hoeher, "Highly-efficient hybrid beamforming by port selection in massive MIMO multi-mode antenna systems," in Proc. ITG SCC, Rostock, Germany, Feb. 2019. DOI
  18. M. Damrath, M. Schurwanz, and P.A. Hoeher, "The turbo principle in molecular communications," in Proc. ITG SCC, Rostock, Germany, Feb. 2019. DOI