Learning spectrograms with convolutional spectral kernels
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We introduce the convolutional spectral kernel (CSK), a novel family of interpretable and non-stationary kernels derived from the convolution of two imaginary radial basis functions. We propose the input-frequency spectrogram as a novel tool to analyze nonparametric kernels as well as the kernels of deep Gaussian processes (DGPs). Observing through the lens of the spectrogram, we shed light on the interpretability of deep models, along with useful insights for effective inference. We also present scalable variational and stochastic Hamiltonian Monte Carlo inference to learn rich, yet interpretable frequency patterns from data using DGPs constructed via covariance functions. Empirically we show on simulated and real-world datasets that CSK extracts meaningful non-stationary periodicities.
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