Removing Radio Frequency Interference from Auroral Kilometric Radiation with Stacked Autoencoders

10/24/2022
by   Allen Chang, et al.
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Radio frequency data in astronomy enable scientists to analyze astrophysical phenomena. However, these data can be corrupted by a host of radio frequency interference (RFI) sources that limit the ability to observe underlying natural processes. In this study, we extended recent work in image processing to remove RFI from time-frequency spectrograms containing auroral kilometric radiation (AKR), a coherent radio emission originating from the Earth's auroral zones that is used to study astrophysical plasmas. We present a Denoising Autoencoder for Auroral Radio Emissions (DAARE) trained with synthetic spectrograms to denoise AKR spectrograms collected at the South Pole Station. DAARE achieved 42.2 peak-signal-to-noise ratio (PSNR) and 0.981 structural similarity (SSIM) on synthesized AKR observations, improving PSNR by 3.9 and SSIM by 0.064 compared to state-of-the-art filtering and denoising networks. Qualitative comparisons demonstrate DAARE's denoising capability to effectively remove RFI from real AKR observations, despite being trained completely on a dataset of simulated AKR. The framework for simulating AKR, training DAARE, and employing DAARE can be accessed at https://github.com/Cylumn/daare.

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