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

    S. Stanczak and A. Feistel and H. Boche (2008). QoS Support with Utility-Based Power Control. Proc. 2008 IEEE International Symposium on Information Theory (ISIT)


    C. Schnurr and S. Stanczak and T. J. Oechtering (2008). Achievable Rates for the Restricted Half-Duplex Two-Way Relay Channel under a Partial-Decode-and-Forward Protocol. Proc. IEEE Information Theory Workshop (ITW)


    Z. Du and D. Qian and S. Stanczak and R. Heras-Evangelio and Y. Liu (2008). Autoconfiguration of Shared Network-Layer Adress in Cluster-based Wireless Sensor Network. Proc. of the IEEE International Conference on Networking, Sensing and Control (ICNSC), 148–153.


    R. Heras-Evangelio and S. Stanczak and C. Schnurr (2008). Energy Efficiency of a Two-Stage Relaying Scheme in Wireless Sensor Networks. Proc. 42nd Annual Conference on Information Sciences and Systems (CISS 2008)


    S. Stanczak and M. Kaliszan (2008). Some Bounds on the Network Outage Probability in Wireless Networks. Proc. 42nd Annual Conference on Information Sciences and Systems (CISS)


    S. Stanczak and A. Feistel and H. Boche and M. Wiczanowski (2008). Towards Efficient and Fair Resource Allocation in Wireless Networks. Proc. 6th Intl. Symposium on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks (WiOpt)


    R. Heras-Evangelio and S. Stanczak and C. Schnurr (2008). On the Optimal Power Allocation in Relay Networks based on a Two-Stage Relaying Scheme. Proc. 7th International ITG Conference on Source and Channel Coding


    C. Schnurr and T. J. Oechtering and S. Stanczak (2007). Achievable Rates for the Restricted Half-Duplex Two-Way Relay Channel. Proc. 41st Asilomar Conference on Signals, Systems, and Computers


    S. Stanczak and H. Boche and M. Wiczanowski (2007). On the Network Outage Probability with a Common SIR Requirement. Proc. 41st Asilomar Conference on Signals, Systems, and Computers


    M. Wiczanowski and H. Boche and S. Stanczak (2007). Characterization of max-min fair performance in large networks via Szemeredi's Regularity Lemma. Proc. IEEE International Symposium on Information Theory (ISIT)


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