This paper proposes a Deep Learning approach to radio signal de-noising. This approach is data-driven, thus it allows de-noising signals, corresponding to distinct protocols, without requiring explicit use of expert knowledge, in this way granting higher flexibility. The core component of the Artificial Neural Network architecture used in this work is a Convolutional De-noising AutoEncoder. We report about the performance of the system in spectrogram-based denoising of the protocol preamble across protocols of the IEEE 802.11 family, studied using simulation data. This approach can be used within a machine learning pipeline: the denoised data can be fed to a protocol classifier. A further perspective advantage of using the AutoEncoders in such a pipeline is that they can be co-trained with the downstream classifier (protocol detector), to optimize its accuracy.
A Deep Learning Approach to Radio Signal Denoising / E. Almazrouei, G. Gianini, N. Almoosa, E. Damiani - In: 2019 IEEE Wireless Communications and Networking Conference Workshop (WCNCW)Prima edizione. - [s.l] : IEEE, 2019. - ISBN 9781728109220. - pp. 1-8 (( convegno IEEE Wireless Communications and Networking Conference Workshop, WCNCW 2019 tenutosi a Marrakech nel 2019 [10.1109/WCNCW.2019.8902756].
A Deep Learning Approach to Radio Signal Denoising
G. Gianini
Co-primo
;E. Damiani
2019
Abstract
This paper proposes a Deep Learning approach to radio signal de-noising. This approach is data-driven, thus it allows de-noising signals, corresponding to distinct protocols, without requiring explicit use of expert knowledge, in this way granting higher flexibility. The core component of the Artificial Neural Network architecture used in this work is a Convolutional De-noising AutoEncoder. We report about the performance of the system in spectrogram-based denoising of the protocol preamble across protocols of the IEEE 802.11 family, studied using simulation data. This approach can be used within a machine learning pipeline: the denoised data can be fed to a protocol classifier. A further perspective advantage of using the AutoEncoders in such a pipeline is that they can be co-trained with the downstream classifier (protocol detector), to optimize its accuracy.
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