@inproceedings{
  author = {P. Gautam and C. Bockelmann and A. Dekorsy},
  year = {2024},
  month = {Jun},
  title = {Interference Prediction in Unconnected In-X Mobile 6G Subnetworks Using a Data-Driven Approach},
  abstract={In-X subnetworks (SN) face challenges in achieving heterogeneous extreme requirements such as 0.1 ms latency and 6-to-8 nines reliability due to high and dynamic interference caused by mobility, channel characteristics, and limited resources in ultra-dense environments. We propose interference prediction techniques, M-to-M, 1-to-1, and federated learning (FL)-based long short-term memory (LSTM) that help in learning the complex and potentially non-linear relationship from a measured interference power vector. This results in significantly lower prediction error as compared to baseline methods. The FL-based predictor enhances robustness by leveraging knowledge from other sensor/actuator pairs' learning by achieving up to 4.5 dB lower prediction error as compared to M-to-M, and one-to-one LSTM predictors in the Sensor-actuator (SA) pair.},
  booktitle={IEEE International Conference on Communications (ICC), Denver, USA}
}