Johnathan Corgan scite author profile

We study the adaptation of convolutional neural networks to the complex-valued temporal radio signal domain. We compare the efficacy of radio modulation classification using naively learned features against using expert feature based methods which are widely used today and e show significant performance improvements. We show that blind temporal learning on large and densely encoded time series using deep convolutional neural networks is viable and a strong candidate approach for this task especially at low signal to noise ratio.

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Unsupervised representation learning of structured radio communication signals

O’Shea

Corgan²,

Clancy

2016

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Abstract-We explore unsupervised representation learning of radio communication signals in raw sampled time series representation. We demonstrate that we can learn modulation basis functions using convolutional autoencoders and visually recognize their relationship to the analytic bases used in digital communications. We also propose and evaluate quantitative metrics for quality of encoding using domain relevant performance metrics.

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End-to-end radio traffic sequence recognition with recurrent neural networks

O’Shea

Hitefield²,

Corgan

2016

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We investigate sequence machine learning techniques on raw radio signal time-series data. By applying deep recurrent neural networks we learn to discriminate between several application layer traffic types on top of a constant envelope modulation without using an expert demodulation algorithm. We show that complex protocol sequences can be learned and used for both classification and generation tasks using this approach.

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Convolutional Radio Modulation Recognition Networks

O’Shea¹,

Corgan²,

Clancy³

2016

Preprint

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End-to-End Radio Traffic Sequence Recognition with Deep Recurrent Neural Networks

O’Shea¹,

Hitefield²,

Corgan³

2016

Preprint

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