TU Berlin

Department of Telecommunication SystemsProf. Dr.-Ing. Slawomir Stanczak

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Prof. Dr.-Ing. Slawomir Stanczak

Prof. Slawomir Stanczak
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Slawomir Stanczak studied electrical engineering with specialization in control theory at the Wroclaw University of Technology and at the Technical University of Berlin (TU Berlin).  He received the Dipl.-Ing. degree in 1998 and the Dr.-Ing. degree (summa cum laude) in electrical engineering in 2003, both from TU Berlin; the Habilitation degree (venialegendi) followed in 2006. Since 2015, he has been a Full Professor for network information theory with TU Berlin and the head of the Wireless Communications and Networks department at Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute (HHI). Prof. Stanczak has been involved in research and development activities in wireless communications since 1997. In 2004 and 2007, he was a Visiting Professor with RWTH Aachen University and in 2008, he was a Visiting Scientist with Stanford University, Stanford, CA, USA. He is a co-author of two books and more than 200 peer-reviewed journal articles and conference papers in the area of information theory, wireless communications, signal processing and machine learning.   Prof. Stanczak received research grants from the German Research Foundation and the Best Paper Award from the German Communication Engineering Society in 2014. He was a Co-chair of the 14th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC 2013). Between 2009 and 2011, he was an Associate Editor of the European Transactions for Telecommunications (information theory) and an Associate Editor of the IEEE Transactions on Signal Processing between 2012 - 2015 and the chair of the ITU-T Focus Group on Machine Learning for Future Networks including 5G from 2017 - 2020. Since 2020, Prof. Stanczak is chairman of the 5G BERLIN association and an Editor of the IEEE Journal on Selected Areas in Communications for the special issue “Machine Learning in Communications and Networks”. Since 2021 he is coordinator of the 6G Research & Innovation Cluster and the flagship project CampusOS.     

Teaching

  • Winter 2022/23

    • VL Fundamentals of Digital Wireless Communication (Prof. Dr.-Ing. Slawomir Stanczak)
    • VL Mathematical Introduction to Machine Learning (Dr. rer. nat. Igor Bjelakovic)
    • Master Project Network Information Systems (Dr.- Ing. Julius Schulz- Zander)

    • Summer 2022

      • VL Theory and Algorithms of Machine Learning (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Modern Signal Processing and Communications (Dr. Renato L.G. Cavalcante)
      • VL Selected Topics in Wireless Communications and Networking (Dr. Zoran Utkovski)
      • Master Project Network Information Systems (Dr.- Ing. Julius Schulz- Zander)

    • Winter 2021/22

      • VL Fundamentals of Digital Wireless Communication (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Mathematical Introduction to Machine Learning (Dr. rer. nat. Igor Bjelakovic)

    • Summer 2021

      • VL Theory and Algorithms of Machine Learning (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Modern Signal Processing and Communications (Dr. Renato L.G. Cavalcante)
      • VL Selected Topics in Wireless Communications and Networking (Dr. Zoran Utkovski)
      • Master Project Network Information Systems (Dr.- Ing. Julius Schulz- Zander)

    • Winter 2020/21

      • VL Fundamentals of Digital Wireless Communication (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Mathematical Introduction to Machine Learning (Dr. rer. nat. Igor Bjelakovic)
      • VL Introduction to Game Theory with Engineering Applications (Prof. Dr.-Ing. Setareh Maghsudi)

    • Summer 2020

      • VL Theory and Algorithms of Machine Learning (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Modern Signal Processing and Communications (Dr. Renato L.G. Cavalcante)
      • VL Selected Topics in Wireless Communications and Networking (Dr. Zoran Utkovski)

    • Winter 2019/20

      • VL Fundamentals of Digital Wireless Communication (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Mathematical Introduction to Machine Learning (Dr. rer. nat. Igor Bjelakovic)

    •  Summer 2019

      • VL Theory and Algorithms of Machine Learning (Prof. Dr.-Ing. Slawomir Stanczak)
      • VL Modern Signal Processing and Communications (Dr. Renato L.G. Cavalcante)
      • VL Selected Topics in Wireless Communications and Networking (Dr. Zoran Utkovski)

     

    You can also find me on:

    Fraunhofer Heinrich-Hertz-Institut

    Google Scholar

    arXiv

    LinkedIn

    Publications

    Preprints

    Books

    Book Chapters

    Journal Publications

    Conference, Symposium, and Workshop Papers

    H. Boche and S. Stanczak (2001). Lower Bound on the Mean Square Channel Estimation Error for Multiuser Receiver. Proc. IEEE International Symposium on Circuits and Systems (ISCAS)


    S. Stanczak and H. Boche and F. Fitzek and A. Wolisz (2000). Design of Spreading Sequences for SMPT-based CDMA Systems. Proc. 34th Asilomar Conference on Signals, Systems, and Computers, 1622-1626.


    S. Stanczak and H. Boche (2000). Influence of Periodic Correlation Properties Of Sequences on the Sum Capacity of CDMA Systems. Proc of the 34th Asilomar Conference on Signals, Systems, and Computers, 1288-1292.


    H. Boche and S. Stanczak (2000). Estimation of Deviations Between the Aperiodic and Periodic Correlation Functions of Polyphase Sequences in the Vicinity of the Zero Shift. Proc. 6th IEEE Int. Symp. on Spread-Spectrum Tech. and Appl. (ISSSTA), 283-287.


    S. Stanczak and H. Boche (2000). Aperiodic properties of generalized binary Rudin-Shapiro sequences and some recent results on sequences with a quadratic phase function. Proc. International Zürich Seminar On Broadband Communications (IZS), 279-286.


    S. Stanczak and H. Boche (2000). The L/sup 1/-norm of out-of-phase peaks of the aperiodic auto-correlation function of binary sequences. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), 2533-2536.


    H. Boche and S. Stanczak (1999). Aperiodic Auto-Correlation of Polyphase Sequences with a Small Peak-Factor. Proc. 33rd Asilomar Conference on Signals, Systems, and Computers, 705-709.



    S. Stanczak and H. Boche (1999). Aperiodic Correlation Properties of Polyphase Sequences with a Quadratic Phase Function. Proc. 3rd Workshop ''Kommunikationstechnik'' Schloss Reisensburg near Ulm, 61-68.


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