English

Machine Learning-Based Distributed Authentication of UWAN Nodes with Limited Shared Information

Signal Processing 2024-05-24 v1

Abstract

We propose a technique to authenticate received packets in underwater acoustic networks based on the physical layer features of the underwater acoustic channel (UWAC). Several sensors a) locally estimate features (e.g., the number of taps or the delay spread) of the UWAC over which the packet is received, b) obtain a compressed feature representation through a neural network (NN), and c) transmit their representations to a central sink node that, using a NN, decides whether the packet has been transmitted by the legitimate node or by an impersonating attacker. Although the purpose of the system is to make a binary decision as to whether a packet is authentic or not, we show the importance of having a rich set of compressed features, while still taking into account transmission rate limits among the nodes. We consider both global training, where all NNs are trained together, and local training, where each NN is trained individually. For the latter scenario, several alternatives for the NN structure and loss function were used for training.

Keywords

Cite

@article{arxiv.2208.09340,
  title  = {Machine Learning-Based Distributed Authentication of UWAN Nodes with Limited Shared Information},
  author = {Francesco Ardizzon and Roee Diamant and Paolo Casari and Stefano Tomasin},
  journal= {arXiv preprint arXiv:2208.09340},
  year   = {2024}
}

Comments

Conference paper accepted to UCOMMS22

R2 v1 2026-06-25T01:49:20.913Z