Schmidt

Wiss. Mitarbeiter/-in

M.Sc. Johann Schmidt

Institut für Intelligente Kooperierende Systeme (IKS)
AG Artificial Intelligence Lab
Universitätsplatz 2, Gebäude 29, 39106 Magdeburg, G29-022   vCard
About me

Education

  • 2014-2018 Bachelor Electrical Engineering, University of applied Science Magdeburg-Stendal, Germany
  • 2018-2020 Master Digital Engineering, Otto-von-Guericke University Magdeburg, Germany
  • since 2020: Researcher / PhD student at the AI-Lab of the Otto-von-Guericke University Magdeburg, Germany

Main Research Interests

  • Find solutions to Combinatorical Optimization problems (as job scheduling, TSP, etc.) using Deep Learning
  • Traffic Light Control (TLC) with Deep Reinforcement Learning and Graph Neural Networks
  • Learn to structure latent spaces by leveraging symmetries in the data domain (Geometric Deep Learning).

Funded Projects

  • During SENECA (2020-2022) we developed a self-learning decision support system for real-time job sequence and machine allocation planning.
  • In PASCAL (2022-2025) we build a proactive smart controller for traffic light control in Magdeburg.
  • AIEngineering (2022-2026) fuses engineering with artifiicial intelligence forming a new practise-oriented Bachelor Study Program.

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Publications

  • J. Schmidt and S. Stober. Tilt your Head: Spatial Transformation Invariance via Input Canonicalization during Inference. PrePrint, 2023. [PDF]

  • J. Schmidt, B. Köhler and Hagen Borstell. Reviving Simulated Annealing: Lifting its Degeneracies for Real-Time Job Scheduling. The Hawaii International Conference on System Sciences (HICSS), 2023. [PDF]
  • J. Schmidt and S. Stober. Learning Continuous Rotation Canonicalization with Radial Beam Sampling. ArXiv PrePrint, 2022. [PDF]
  • S. Lang, T. Reggelin, J. Schmidt, M. Müller, and A. Nahhas. NeuroEvolution of augmenting topologies for solving a two-stage hybrid flow shop scheduling problem: A comparison of different solution strategies. Expert Systems with Applications, 2021. [PDF]
  • J. Schmidt and S. Stober. Approaching Scheduling Problems via a Deep Hybrid Greedy Model and Supervised Learning. IFAC Symposium on Information Control Problems in Manufacturing, 2021. [PDF]
  • S. Bexten, J. Schmidt, C. Walter, and N. Elkmann. Human Action Recognition as part of a Natural Machine Operation Framework. IEEE 26th International Conference on Emerging Technologies and Factory Automation (ETFA), 2021. [PDF]

 

Last Modification: 05.03.2024 - Contact Person: Webmaster