Anomaly Detection via Federated Learning
Machine learning has helped advance the field of anomaly detection by incorporating classifiers and autoencoders to decipher between normal and anomalous behavior. Additionally, federated learning has provided a way for a global model to be trained with multiple clients' data without requiring...
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| Zusammenfassung: | Machine learning has helped advance the field of anomaly detection by
incorporating classifiers and autoencoders to decipher between normal and
anomalous behavior. Additionally, federated learning has provided a way for a
global model to be trained with multiple clients' data without requiring the
client to directly share their data. This paper proposes a novel anomaly
detector via federated learning to detect malicious network activity on a
client's server. In our experiments, we use an autoencoder with a classifier in
a federated learning framework to determine if the network activity is benign
or malicious. By using our novel min-max scalar and sampling technique, called
FedSam, we determined federated learning allows the global model to learn from
each client's data and, in turn, provide a means for each client to improve
their intrusion detection system's defense against cyber-attacks. |
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| DOI: | 10.48550/arxiv.2210.06614 |