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Fakultät für Elektrotechnik und Informationstechnik
C. Bektas, D. Overbeck, C. Wietfeld

SAMUS: Slice-Aware Machine Learning-based Ultra-Reliable Scheduling

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in
  • Caner Bektas
  • Dennis Overbeck
  • Univ.-Prof. Dr.-Ing. Christian Wietfeld
  • Publications
  • CC5G.NRW
  • 5Gain
  • SFB 876

In 2021 IEEE International Conference on Communications (ICC), Virtual Event, June 2021

Abstract:

Multiple service types such as Ultra-Reliable Low Latency Communication (uRLLC) and Enhanced Mobile Broadband (eMBB) are envisioned to be incorporated into the next generation mobile communication standard 5G based on a single physical communication network. To unite these services with partly contradicting Quality of Service (QoS) requirements, Network Slicing is considered a key technology. uRLLC slices in particular are highly demanding, requiring extremely high reliability and low latency in the single-digit milliseconds range. Consequentially, the latency impact of radio resource management on the end-to-end latency is optimized in this work by using so-called Configured Grants (CGs), which aim to minimize latency-intensive scheduling requests by pre-allocating radio resources. As predicting future traffic demands and channel conditions are required to use CGs, a data-driven machine learning-based radio resource scheduler prototype is introduced and evaluated in this work based on a specifically developed 5G radio resource simulator. The results show promising latency optimizations and possible trade-offs in uRLLC and eMBB coexistence.