DenoMAE: A Multimodal Autoencoder for Denoising Modulation Signals

Atik Faysal; Taha Boushine; Mohammad Rostami; Reihaneh Gh Roshan; Huaxia Wang; Nikhil Muralidhar; Avimanyu Sahoo; Yu Dong Yao

doi:10.1109/LCOMM.2025.3570602

DenoMAE: A Multimodal Autoencoder for Denoising Modulation Signals

Atik Faysal
, Taha Boushine
, Mohammad Rostami
, Reihaneh Gh Roshan
, Huaxia Wang
, Nikhil Muralidhar
, Avimanyu Sahoo
, Yu Dong Yao

Electrical Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We propose Denoising Masked Autoencoder (DenoMAE), a novel multimodal autoencoder framework for denoising modulation signals during pretraining. DenoMAE extends the concept of masked autoencoders by incorporating multiple input modalities, including noise as an explicit modality, to enhance cross-modal learning and improve denoising performance. The network is pre-trained using unlabeled noisy modulation signals and constellation diagrams, effectively learning to reconstruct their equivalent noiseless signals and diagrams. DenoMAE achieves state-of-the-art accuracy in automatic modulation classification (AMC) tasks with significantly fewer training samples, demonstrating a 10 × reduction in unlabeled pretraining data and a 3 × reduction in labeled fine-tuning data compared to existing approaches. Moreover, our model exhibits robust performance across varying Signal-to-Noise Ratios (SNRs) and supports extrapolation on unseen lower SNRs. The results indicate that DenoMAE is an efficient, flexible, and data-efficient solution for denoising and classifying modulation signals in challenging, noise-intensive environments.

Original language	English (US)
Pages (from-to)	1659-1663
Number of pages	5
Journal	IEEE Communications Letters
Volume	29
Issue number	7
DOIs	https://doi.org/10.1109/LCOMM.2025.3570602
State	Published - 2025

All Science Journal Classification (ASJC) codes

Modeling and Simulation
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/LCOMM.2025.3570602

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title = "DenoMAE: A Multimodal Autoencoder for Denoising Modulation Signals",

abstract = "We propose Denoising Masked Autoencoder (DenoMAE), a novel multimodal autoencoder framework for denoising modulation signals during pretraining. DenoMAE extends the concept of masked autoencoders by incorporating multiple input modalities, including noise as an explicit modality, to enhance cross-modal learning and improve denoising performance. The network is pre-trained using unlabeled noisy modulation signals and constellation diagrams, effectively learning to reconstruct their equivalent noiseless signals and diagrams. DenoMAE achieves state-of-the-art accuracy in automatic modulation classification (AMC) tasks with significantly fewer training samples, demonstrating a 10 × reduction in unlabeled pretraining data and a 3 × reduction in labeled fine-tuning data compared to existing approaches. Moreover, our model exhibits robust performance across varying Signal-to-Noise Ratios (SNRs) and supports extrapolation on unseen lower SNRs. The results indicate that DenoMAE is an efficient, flexible, and data-efficient solution for denoising and classifying modulation signals in challenging, noise-intensive environments.",

author = "Atik Faysal and Taha Boushine and Mohammad Rostami and Roshan, \{Reihaneh Gh\} and Huaxia Wang and Nikhil Muralidhar and Avimanyu Sahoo and Yao, \{Yu Dong\}",

note = "Publisher Copyright: {\textcopyright} 1997-2012 IEEE.",

year = "2025",

doi = "10.1109/LCOMM.2025.3570602",

language = "English (US)",

volume = "29",

pages = "1659--1663",

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AU - Faysal, Atik

AU - Boushine, Taha

AU - Rostami, Mohammad

AU - Roshan, Reihaneh Gh

AU - Wang, Huaxia

AU - Muralidhar, Nikhil

AU - Sahoo, Avimanyu

AU - Yao, Yu Dong

PY - 2025

Y1 - 2025

N2 - We propose Denoising Masked Autoencoder (DenoMAE), a novel multimodal autoencoder framework for denoising modulation signals during pretraining. DenoMAE extends the concept of masked autoencoders by incorporating multiple input modalities, including noise as an explicit modality, to enhance cross-modal learning and improve denoising performance. The network is pre-trained using unlabeled noisy modulation signals and constellation diagrams, effectively learning to reconstruct their equivalent noiseless signals and diagrams. DenoMAE achieves state-of-the-art accuracy in automatic modulation classification (AMC) tasks with significantly fewer training samples, demonstrating a 10 × reduction in unlabeled pretraining data and a 3 × reduction in labeled fine-tuning data compared to existing approaches. Moreover, our model exhibits robust performance across varying Signal-to-Noise Ratios (SNRs) and supports extrapolation on unseen lower SNRs. The results indicate that DenoMAE is an efficient, flexible, and data-efficient solution for denoising and classifying modulation signals in challenging, noise-intensive environments.

AB - We propose Denoising Masked Autoencoder (DenoMAE), a novel multimodal autoencoder framework for denoising modulation signals during pretraining. DenoMAE extends the concept of masked autoencoders by incorporating multiple input modalities, including noise as an explicit modality, to enhance cross-modal learning and improve denoising performance. The network is pre-trained using unlabeled noisy modulation signals and constellation diagrams, effectively learning to reconstruct their equivalent noiseless signals and diagrams. DenoMAE achieves state-of-the-art accuracy in automatic modulation classification (AMC) tasks with significantly fewer training samples, demonstrating a 10 × reduction in unlabeled pretraining data and a 3 × reduction in labeled fine-tuning data compared to existing approaches. Moreover, our model exhibits robust performance across varying Signal-to-Noise Ratios (SNRs) and supports extrapolation on unseen lower SNRs. The results indicate that DenoMAE is an efficient, flexible, and data-efficient solution for denoising and classifying modulation signals in challenging, noise-intensive environments.

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DenoMAE: A Multimodal Autoencoder for Denoising Modulation Signals

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