Federated Learning for Anomaly Detection in Maritime Movement Data

Abstract--This paper introduces M fed, a novel solution for federated learning of movement anomaly detection models. This innovation has the potential to improve data privacy and reduce communication costs in machine learning for movement anomaly detection. We present the novel federated learning (FL) strategies employed to train M fed, perform an example experiment with maritime AIS data, and evaluate the results with respect to communication costs and FL model quality by comparing classic centralized M and the new federated M fed. The deployment of machine learning approaches in practice often faces issues of data availability and communication bandwidth bottlenecks. Particularly in the mobility domain, data is often privacy sensitive and / or the communication network may be unreliable or rate limited. One approach to address these issues is Federated Learning (FL) since it can mitigate privacy risks and reduce communication costs compared to traditional centralized machine learning [1].