Deep Reservoir Networks with Learned Hidden Reservoir Weights using Direct Feedback Alignment

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Authors Matthew Evanusa, Cornelia Fermรผller, Yiannis Aloimonos arXiv ID 2010.06209 Category cs.NE: Neural & Evolutionary Cross-listed cs.LG Citations 1 Venue arXiv.org Last Checked 4 months ago
Abstract
Deep Reservoir Computing has emerged as a new paradigm for deep learning, which is based around the reservoir computing principle of maintaining random pools of neurons combined with hierarchical deep learning. The reservoir paradigm reflects and respects the high degree of recurrence in biological brains, and the role that neuronal dynamics play in learning. However, one issue hampering deep reservoir network development is that one cannot backpropagate through the reservoir layers. Recent deep reservoir architectures do not learn hidden or hierarchical representations in the same manner as deep artificial neural networks, but rather concatenate all hidden reservoirs together to perform traditional regression. Here we present a novel Deep Reservoir Network for time series prediction and classification that learns through the non-differentiable hidden reservoir layers using a biologically-inspired backpropagation alternative called Direct Feedback Alignment, which resembles global dopamine signal broadcasting in the brain. We demonstrate its efficacy on two real world multidimensional time series datasets.
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