Dario Rethage scite author profile

Currently, most speech processing techniques use magnitude spectrograms as frontend and are therefore by default discarding part of the signal: the phase. In order to overcome this limitation, we propose an end-to-end learning method for speech denoising based on Wavenet. The proposed model adaptation retains Wavenet's powerful acoustic modeling capabilities, while significantly reducing its timecomplexity by eliminating its autoregressive nature. Specifically, the model makes use of non-causal, dilated convolutions and predicts target fields instead of a single target sample. The discriminative adaptation of the model we propose, learns in a supervised fashion via minimizing a regression loss. These modifications make the model highly parallelizable during both training and inference. Both computational and perceptual evaluations indicate that the proposed method is preferred to Wiener filtering, a common method based on processing the magnitude spectrogram.Previous discussion motivates our study in adapting Wavenet's model (an autoregressive generative model) for speech denoising. Our main hypothesis is that by learning multi-scale hierarchical representations from raw audio we can overcome the inherent limitations of using the magnitude * Contributed equally.

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Fully-Convolutional Point Networks for Large-Scale Point Clouds

Rethage

Wald

Sturm³

et al. 2018

183

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This work proposes a general-purpose, fully-convolutional network architecture for efficiently processing large-scale 3D data. One striking characteristic of our approach is its ability to process unorganized 3D representations such as point clouds as input, then transforming them internally to ordered structures to be processed via 3D convolutions. In contrast to conventional approaches that maintain either unorganized or organized representations, from input to output, our approach has the advantage of operating on memory efficient input data representations while at the same time exploiting the natural structure of convolutional operations to avoid the redundant computing and storing of spatial information in the network. The network eliminates the need to pre-or post process the raw sensor data. This, together with the fullyconvolutional nature of the network, makes it an end-to-end method able to process point clouds of huge spaces or even entire rooms with up to 200k points at once. Another advantage is that our network can produce either an ordered output or map predictions directly onto the input cloud, thus making it suitable as a general-purpose point cloud descriptor applicable to many 3D tasks. We demonstrate our network's ability to effectively learn both low-level features as well as complex compositional relationships by evaluating it on benchmark datasets for semantic voxel segmentation, semantic part segmentation and 3D scene captioning.

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A Wavenet for Speech Denoising

Rethage¹,

Pons²,

Serra³

2017

Preprint

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Fully-Convolutional Point Networks for Large-Scale Point Clouds

Rethage¹,

Wald²,

Sturm³

et al. 2018

Preprint

View full text Add to dashboard Cite

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Dario Rethage

A Wavenet for Speech Denoising

Fully-Convolutional Point Networks for Large-Scale Point Clouds

A Wavenet for Speech Denoising

Fully-Convolutional Point Networks for Large-Scale Point Clouds

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