Nonlinear Sequence Embedding by Monotone Variational Inequality
Keywords: Monotone Variational Inequality, Convex Optimization, Sequence data, Time Series, Representation Learning
TL;DR: We introduce a convex method to learn low dimensional representations of nonlinear time-series and sequences with recovery guarantees.
Abstract: In the wild, we often encounter collections of sequential data such as electrocardiograms, motion capture, genomes, and natural language, and sequences may be multichannel or symbolic with nonlinear dynamics. We introduce a method to learn low-dimensional representations of nonlinear sequence and time-series data without supervision which has provable recovery guarantees. The learned representation can be used for downstream machine-learning tasks such as clustering and classification. The method assumes that the observed sequences arise from a common domain, with each sequence following its own autoregressive model, and these models are related through low-rank regularization. We cast the problem as a convex matrix parameter recovery problem using monotone variational inequalities (VIs) and encode the common domain assumption via low-rank constraint across the learned representations, which can learn a subspace approximately spanning the entire domain as well as faithful representations for the dynamics of each individual sequence incorporating the domain information in totality. We show the competitive performance of our method on real-world time-series data with baselines and demonstrate its effectiveness for symbolic text modeling and RNA sequence clustering.
Primary Area: learning on time series and dynamical systems
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Submission Number: 8337
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