Related papers: A scalable generative model for dynamical system reconstruction from neuroimaging data

A scalable generative model for dynamical system reconstruction from neuroimaging data

URL: http://arxiv.org/abs/2411.02949v1
Date: Tue, 05 Nov 2024 09:45:57 GMT
Title: A scalable generative model for dynamical system reconstruction from neuroimaging data
Authors: Eric Volkmann, Alena Brändle, Daniel Durstewitz, Georgia Koppe,
Abstract summary: Data-driven inference of the generative dynamics underlying a set of observed time series is of growing interest in machine learning. Recent breakthroughs in training techniques for state space models (SSMs) specifically geared toward dynamical systems reconstruction (DSR) enable to recover the underlying system. We propose a novel algorithm that solves this problem and scales exceptionally well with model dimensionality and filter length.
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Abstract: Data-driven inference of the generative dynamics underlying a set of observed time series is of growing interest in machine learning and the natural sciences. In neuroscience, such methods promise to alleviate the need to handcraft models based on biophysical principles and allow to automatize the inference of inter-individual differences in brain dynamics. Recent breakthroughs in training techniques for state space models (SSMs) specifically geared toward dynamical systems (DS) reconstruction (DSR) enable to recover the underlying system including its geometrical (attractor) and long-term statistical invariants from even short time series. These techniques are based on control-theoretic ideas, like modern variants of teacher forcing (TF), to ensure stable loss gradient propagation while training. However, as it currently stands, these techniques are not directly applicable to data modalities where current observations depend on an entire history of previous states due to a signal's filtering properties, as common in neuroscience (and physiology more generally). Prominent examples are the blood oxygenation level dependent (BOLD) signal in functional magnetic resonance imaging (fMRI) or Ca$^{2+}$ imaging data. Such types of signals render the SSM's decoder model non-invertible, a requirement for previous TF-based methods. Here, exploiting the recent success of control techniques for training SSMs, we propose a novel algorithm that solves this problem and scales exceptionally well with model dimensionality and filter length. We demonstrate its efficiency in reconstructing dynamical systems, including their state space geometry and long-term temporal properties, from just short BOLD time series.

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