Dr.-Ing. Alwyn Johannes Burger, arbeitete von April 2015 bis Januar 2021 als Wissenschaftlicher Mitarbeiter am Fachbereich Eingebettete Systeme der Informatik von Prof. Schiele an der Universität Duisburg-Essen. Er erhielt 2012 seinen Bachelorabschluss in "Electrical and Electronic Engineering" mit einem Fokus auf Robotik an der University of Stellenbosch in Südafrika. Im März 2015 erhielt er seinen Masterabschluss in "Engineering" an der University of Stellenbosch für seine Arbeit an autonomer 3D Kartierung mithilfe von Stereovision.

Im März 2023 hat er seine Doktorarbeit mit dem Titel "FPGA-Augmented Intelligent Devices for the Internet of Things" eingereicht und damit den Grad des Dr.-Ing. erreicht.

Publikationen

    Artikel in Zeitschriften

  • Burger, Alwyn; Schiele, Gregor; King, David W.
    Reconfigurable Embedded Devices Using Reinforcement Learning to Develop Action Policies
    In: ACM Transactions on Autonomous and Adaptive Systems (TAAS) Jg. 15 (2021) Nr. 4, 14
  • Burger, Alwyn Johannes; Cichiwskyj, Christopher; Schmeißer, Stephan; Schiele, Gregor
    The Elastic Internet of Things - A Platform for Self-Integrating and Self-Adaptive IoT-Systems with Support for Embedded Adaptive Hardware
    In: Future Generation Computer Systems Jg. 113 (2020) S. 607 - 619
  • Beiträge in Sammelwerken und Tagungsbänden

  • Burger, Alwyn Johannes; Qian, Chao; Schiele, Gregor; Helms, Domenik
    An Embedded CNN Implementation for On-Device ECG Analysis
    In: IEEE Annual Conference on Pervasive Computing and Communications Workshops (PerCom) / PerIoT 2020: The Fourtternational Workshop on Mobile and Pervasive Internet of Thingsh In 2020
  • Burger, Alwyn Johannes; Urban, Patrick; Boubin, Jayson; Schiele, Gregor
    An architecture for solving the eigenvalue problem on embedded fpgas
    In: Architecture of Computing Systems – ARCS 2020 / 33rd International Conference on Architecture of Computing Systems; Aachen, Germany; May 25–28, 2020 / Brinkmann, André; Karl, Wolfgang; Lankes, Stefan; Tomforde, Sven; Pionteck, Thilo; Trinitis, Carsten (Hrsg.) 2020, S. 32 - 43
  • Burger, Alwyn Johannes; King, David W.; Schiele, Gregor
    Reconfigurable Embedded Devices Using Reinforcement Learning to Develop Action-Policies
    In: 2020 IEEE 1st International Conference on Autonomic Computing and Self-Organizing Systems: Proceedings / IEEE 1st International Conference on Autonomic Computing and Self-Organizing Systems (ACSOS), 17-21 August 2020, Washington, DC, USA, 2020
  • Schiele, Gregor; Burger, Alwyn Johannes; Cichiwskyj, Christopher
    The Elastic Node: An Experimentation Platform for Hardware Accelerator Research in the Internet of Things
    In: Proceedings of the IEEE International Conference on Autonomic Computing / ICAC 2019; Umea; Sweden; 16 - 20 June 2019 2019, S. 84 - 94
  • Burger, Alwyn Johannes; Schiele, Gregor
    Demo Abstract : Deep Learning on an Elastic Node for the Internet of Things
    In: IEEE International Conference on Pervasive Computing and Communications Workshops / PerCom Workshops 2018; Athens; Greece; 19-23 March 2018 2018, S. 424 - 426
  • Burger, Alwyn Johannes; Cichiwskyj, Christopher; Schiele, Gregor
    Elastic Nodes for the Internet of Things : A Middleware-Based Approach
    In: Proceedings - 2017 IEEE International Conference on Autonomic Computing, ICAC 2017 / 14th IEEE International Conference on Autonomic Computing, ICAC 2017; The Ohio State University Columbus; United States; 17 July 2017 through 21 July 2017 / Wang, Xiaorui (Hrsg.) 2017, S. 73 - 74
  • Loviska, Milan; Krause, Otto; Engelbrecht, Herman A.; Nel, Jason B.; Schiele, Gregor; Burger, Alwyn Johannes; Schmeißer, Stephan; Cichiwskyj, Christopher; Calvet, Lilian; Griwodz, Carsten; Halvorsen, Pål
    Immersed gaming in Minecraft
    In: Proceedings of the 7th International Conference on Multimedia Systems (MMSys'16) / MMSys'16 - 7th International Conference on Multimedia Systems, 10-13 May 2016, Klagenfurt, Austria / Association for Computing Machinery (ACM) (Hrsg.) 2016 32
  • Dissertation

  • Burger, Alwyn;
    FPGA-Augmented Intelligent Devices for the Internet of Things
    Duisburg, Essen (2023) xv, 223 Seiten