Bandwidth extension of musical audio signals with no side information using dilated convolutional neural networks
Abstract
Bandwidth extension has a long history in audio processing. While speech processing tools do not rely on side information, production-ready bandwidth extension tools of general audio signals rely on side information that has to be transmitted alongside the bitstream of the low frequency part, mostly because polyphonic music has a more complex and less predictable spectral structure than speech. This paper studies the benefit of considering a dilated fully convolutional neural network to perform the bandwidth extension of musical audio signals with no side information on the magnitude spectra. Experimental evaluation using two public datasets, medley-solos-db and gtzan, respectively of monophonic and polyphonic music demonstrate that the proposed architecture achieves state of the art performance.
Domains
Statistics [stat] Machine Learning [stat.ML] Engineering Sciences [physics] Signal and Image processing Computer Science [cs] Artificial Intelligence [cs.AI] Computer Science [cs] Machine Learning [cs.LG] Computer Science [cs] Multimedia [cs.MM] Computer Science [cs] Signal and Image Processing
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