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    End-to-end non-negative auto-encoders: a deep neural alternative to non-negative audio modeling

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    Over the last decade, non-negative matrix factorization (NMF) has emerged as one of the most popular approaches to modeling audio signals. NMF allows us to factorize the magnitude spectrogram to learn representative spectral bases that can be used for a wide range of applications. With the recent advances in deep learning, neural networks (NNs) have surpassed NMF in terms of performance. However, these NNs are trained discriminatively and lack several key characteristics like re-usability and robustness, compared to NMF. In this dissertation, we develop and investigate the idea of end-to-end non-negative autoencoders (NAEs) as an updated deep learning based alternative framework to non-negative audio modeling. We show that end-to-end NAEs combine the modeling advantages of non-negative matrix factorization and the generalizability of neural networks while delivering significant improvements in performance. To this end, we first interpret NMF as a NAE and show that the two approaches are equivalent semantically and in terms of source separation performance. We exploit the availability of sophisticated neural network architectures to propose several extensions to NAEs. We also demonstrate that these modeling improvements significantly boost the performance of NAEs. In audio processing applications, the short-time fourier transform~(STFT) is used as a universal first step and we design algorithms and neural networks to operate on the magnitude spectrograms. We interpret the sequence of steps involved in computing the STFT as additional neural network layers. This enables us to propose end-to-end processing pipelines that operate directly on the raw waveforms. In the context of source separation, we show that end-to-end processing gives a significant improvement in performance compared to existing spectrogram based methods. Furthermore, to train these end-to-end models, we investigate the use of cost functions that are derived from objective evaluation metrics as measured on waveforms. We present subjective listening test results that reveal insights into the performance of these cost functions for end-to-end source separation. Combining the adaptive front-end layers with NAEs, we propose end-to-end NAEs and show how they can be used for end-to-end generative source separation. Our experiments indicate that these models deliver separation performance comparable to that of discriminative NNs, while retaining the modularity of NMF and the modeling flexibility of neural networks. Finally, we present an approach to train these end-to-end NAEs using mixtures only, without access to clean training examples

    Non-negative mixtures

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    This is the author's accepted pre-print of the article, first published as M. D. Plumbley, A. Cichocki and R. Bro. Non-negative mixtures. In P. Comon and C. Jutten (Ed), Handbook of Blind Source Separation: Independent Component Analysis and Applications. Chapter 13, pp. 515-547. Academic Press, Feb 2010. ISBN 978-0-12-374726-6 DOI: 10.1016/B978-0-12-374726-6.00018-7file: Proof:p\PlumbleyCichockiBro10-non-negative.pdf:PDF owner: markp timestamp: 2011.04.26file: Proof:p\PlumbleyCichockiBro10-non-negative.pdf:PDF owner: markp timestamp: 2011.04.2
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