Gaspar Rochette scite author profile

Gaspar Rochette

4Publications

106Citation Statements Received

118Citation Statements Given

How they've been cited

105

How they cite others

116

Affiliations

École Normale Supérieure, École Normale Supérieure - PSL, PSL Research University

Publications

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Phase harmonic correlations and convolutional neural networks

Mallat

Zhang

Rochette

2019

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A major issue in harmonic analysis is to capture the phase dependence of frequency representations, which carries important signal properties. It seems that convolutional neural networks have found a way. Over time-series and images, convolutional networks often learn a first layer of filters which are well localized in the frequency domain, with different phases. We show that a rectifier then acts as a filter on the phase of the resulting coefficients. It computes signal descriptors which are local in space, frequency and phase. The non-linear phase filter becomes a multiplicative operator over phase harmonics computed with a Fourier transform along the phase. We prove that it defines a bi-Lipschitz and invertible representation. The correlations of phase harmonics coefficients characterise coherent structures from their phase dependence across frequencies. For wavelet filters, we show numerically that signals having sparse wavelet coefficients can be recovered from few phase harmonic correlations, which provide a compressive representation.

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Kymatio: Scattering Transforms in Python

Andreux¹,

Angles²,

Exarchakis³

et al. 2018

Preprint

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The wavelet scattering transform is an invariant signal representation suitable for many signal processing and machine learning applications. We present the Kymatio software package, an easy-to-use, high-performance Python implementation of the scattering transform in 1D, 2D, and 3D that is compatible with modern deep learning frameworks. All transforms may be executed on a GPU (in addition to CPU), offering a considerable speedup over CPU implementations. The package also has a small memory footprint. The source code, documentation, and examples are available under a BSD license at https://www.kymat.io.

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Phase Harmonic Correlations and Convolutional Neural Networks

Mallat¹,

Zhang²,

Rochette³

2018

Preprint

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Scale Dependencies and Self-Similarity Through Wavelet Scattering Covariance

Rudy¹,

Rochette²,

Bouchaud³

et al. 2022

Preprint

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We introduce a scattering covariance matrix which provides non-Gaussian models of time-series having stationary increments. A complex wavelet transform computes signal variations at each scale. Dependencies across scales are captured by the joint covariance across time and scales of complex wavelet coefficients and their modulus. This covariance is nearly diagonalized by a second wavelet transform, which defines the scattering covariance. We show that this set of moments characterizes a wide range of non-Gaussian properties of multi-scale processes. This is analyzed for a variety of processes, including fractional Brownian motions, Poisson, multifractal random walks and Hawkes processes. We prove that self-similar processes have a scattering covariance matrix which is scale invariant. This property can be estimated numerically and defines a class of wide-sense self-similar processes. We build maximum entropy models conditioned by scattering covariance coefficients, and generate new time-series with a microcanonical sampling algorithm. Applications are shown for highly non-Gaussian financial and turbulence time-series.

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Gaspar Rochette

Phase harmonic correlations and convolutional neural networks

Kymatio: Scattering Transforms in Python

Phase Harmonic Correlations and Convolutional Neural Networks

Scale Dependencies and Self-Similarity Through Wavelet Scattering Covariance

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