@inproceedings{97652448df794fc692ec7c448c2753b7,
title = "MIMO Over-The-Air Federated Learning With Spiking Neural Network Via Lattice Code",
abstract = "Spiking neural networks (SNNs) have emerged as an energy-efficient alternative to the traditional artificial neural networks (ANNs) which are compute-intensive. This paper proposes a novel MIMO over-the-air federated learning scheme trained on SNNs using lattice code. Based on the lattice structure, we design a reliable transceiver with lattice quantizer that can combat the noise and interference from the devices. We further derive a convergence analysis of the proposed method considering the nondifferentiable spikes of SNNs. The experimental results verify that the proposed method is effective by showing that the proposed method can achieve comparable accuracy to the ideal benchmarks and outperform the existing approach by employing a small number of antennas at the server and devices. We also show that SNNs are 23.08 × more energy-efficient than ANNs.",
keywords = "convergence analysis, lattice code, MIMO, Over-the-air federated learning, spiking neural network",
author = "Chenye Wang and Youlong Wu and Ting Wang and Yuanming Shi",
note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 2025 IEEE International Conference on Communications, ICC 2025 ; Conference date: 08-06-2025 Through 12-06-2025",
year = "2025",
doi = "10.1109/ICC52391.2025.11160731",
language = "英语",
series = "IEEE International Conference on Communications",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
pages = "3437--3442",
editor = "Matthew Valenti and David Reed and Melissa Torres",
booktitle = "ICC 2025 - IEEE International Conference on Communications",
address = "美国",
}