Top Publications

Photonic

• B. Schrenk, and F. Karinou, “A Coherent Homodyne TO-Can Transceiver as Simple as an EML [Top-Scored]”, IEEE/OSA J. Lightwave Technol., vol. 37, no. 2, pp. 555-561, Jan. 2019.
• B. Schrenk, and F. Karinou, “Analogue Coherent TDMA Receiver with Fast Locking to Free-Running Optical Emitters [Top-Scored]”, IEEE/OSA J. Lightwave Technol., vol. 38, no. 2, pp. 379-385, Jan. 2020.
• B. Schrenk, D. Milovancev, N. Vokic, and F. Karinou, “Face-to-Face EML Transceiver Tandem for Full-Duplex Analogue Radio-over-Air”, IEEE/OSA J. Lightwave Technol., vol. 38, no. 11, pp. 2976-2983, Jun. 2020.
• D. Milovancev, N. Vokic, H. Hübel, and B. Schrenk, “Gb/s Visible Light Communication With Low-Cost Receiver Based on Single-Color LED”, IEEE/OSA J. Lightwave Technol., vol. 38, no. 12, pp. 3305-3314, Jun. 2020.
• D. Milovancev, N. Vokic, C. Pacher, I. Khan, c. Marquardt, W. Boxleitner, H. Hübel, and B. Schrenk, “Towards Integrating True Random Number Generation in Coherent Optical Transceivers”, IEEE J. Sel. Topics in Quantum Electron., vol. 26, no. 5, p. 6400608, Sep. 2020.

 

Quantum

• F. Laudenbach, C. Pacher, C.F. Fung, A. Poppe, M. Peev, B. Schrenk, M. Hentschel, P. Walther, and H. Hübel, “Continuous-Variable Quantum Key Distribution with Gaussian Modulation – The Theory of Practical Implementations”, Wiley Adv. Quantum Tech., vol. 1, p. 1800011, 2018.
• F. Laudenbach, B. Schrenk, C. Pacher, M. Hentschel, C.H.F. Fung, F. Karinou, A. Poppe, M. Peev, and H. Hübel, “Pilot-assisted intradyne reception for high-speed continuous-variable quantum key distribution with true local oscillator”, Quantum, vol. 3, p. 193, Oct. 2019.
• N. Vokic, D. Milovancev, B. Schrenk, M. Hentschel, and H. Hübel, “Differential Phase-Shift QKD in a 2:16-Split Lit PON with 19 Carrier-Grade Channels”, IEEE J. Sel. Topics in Quantum Electron., vol. 26, no. 3, p. 6400309, May 2020.
• F. Laudenbach, B. Schrenk, M. Achleitner, N. Vokic, D. Milovancev, and H. Hübel, “Flexible Cloud/User-Centric Entanglement and Photon Pair Distribution with Synthesizable Optical Router”, IEEE J. Sel. Topics in Quantum Electron., vol. 26, no. 3, p. 6400509, Jun 2020.

 

Wireless

• Wireless vehicular multiband measurements in centimeterwave and millimeterwave bands 
  M. Hofer, D. Löschenbrand, J. Blumenstein, H. Groll, S. Zelenbaba, B. Rainer, L. Bernadó, J. Vychodil, T. Mikulasek, E. Zöchmann, S. Sangodoyin, H. Hammoud, R. Langwieser, S. Pratschner, A. Prokeš, A. Molisch, C. F. Mecklenbräuker, and T. Zemen, in IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC), virtual conference, September 2021, to be presented.
• Multi-node vehicular wireless channels: Measurements, large vehicle modelling, and hardware-in-the-loop evaluation
  S. Zelenbaba, B. Rainer, M. Hofer, D. Löschenbrand, L. Bernadó, A. Dakić, and T. Zemen, IEEE Access, 2021, arXiv, to appear.
• Real-time vehicular wireless system-level simulation
  A. Dakić, M. Hofer, B. Rainer, S. Zelenbaba, L. Bernadó, and T. Zemen, IEEE Access, vol. 9, pp. 23202-23217, February 2021.
• Orthogonally precoded massive MIMO for high mobility scenarios
  T. Zemen, D. Loeschenbrand, M. Hofer, C. Pacher, and B. Rainer, IEEE Access, vol. 7, no. 1, pp. 132979-132990, December 2019.
• Position-specific statistics of 60 GHz vehicular channels during overtaking
  E. Zöchmann, M. Hofer, M. Lerch, S. Pratschner, L. Bernadó, J. Blumenstein, S. Caban, S. Sangodoyin, H. Groll, T. Zemen, A. Prokes, M. Rupp, A. F. Molisch, and C. F. Mecklenbräuker, IEEE Access, vol. 7, pp. 14216 - 14232, January 2019.
• Real-time geometry-based wireless channel emulation
  M. Hofer, Z. Xu, D. Vlastaras, B. Schrenk, D. Löschenbrand, F. Tufvesson, and T. Zemen, IEEE Transactions on Vehicular Technology, vol. 68, no. 2, pp. 1631 - 1645, February 2019.

 

 

 

Patents

Photonic

• Anordnung zur Datenübertragung (System and method for data transmission), B. Schrenk, AT503742019A (04/2019), EP3734863A1 (03/2020), US2020343978A1 (04/2020)
• Verfahren zur Erzeugung eines normalverteilten optischen Zufallssignals (Method for generating a normally distributed optical random signal), F. Laudenbach, H. Hübel, B. Schrenk, C. Pacher,
  AT501902018A (03/2018), EP19161060A (03/2019)
• Verfahren zur Detektion von Diskontinuitäten in einem optischen Kanal, insbesondere einer Glasfaserleitun (Method and apparatus for detecting discontinuities in an optical channel, in particular a fiber optic line), B. Schrenk, AT508472018A (10/2018), EP3633877A1 (10/2019), US201816759809A (07/2018)
• Verfahren zum Empfangen eines modulierten Lasers sowie Empfangseinheit (Method for receiving a modulated optical signal and receiver unit), B. Schrenk, AT506062017A (07/2017), EP3669471A1 (07/2018), WO2019014694A1 (01/2019)
• Verfahren zur Übertragung von Daten, B. Schrenk, H. Hübel, AT2017060155W (06/2017), EP17733343A (06/2017), WO2017214655A1 (12/2017)

 

Quantum

• to be filled

 

Wireless

• Method for Emulating a Radio Channel
  M. Hofer, T. Zemen, WO 2018/085769 A1, Mai 2018; US20200076522A1, March 2020; EP3539230, Dec. 2020.