Top-Down Processing: Top-Down Network Combines Back-Propagation with Attention

06/04/2023
by   Roy Abel, et al.
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Early neural network models relied exclusively on bottom-up processing going from the input signals to higher-level representations. Many recent models also incorporate top-down networks going in the opposite direction. Top-down processing in deep learning models plays two primary roles: learning and directing attention. These two roles are accomplished in current models through distinct mechanisms. While top-down attention is often implemented by extending the model's architecture with additional units that propagate information from high to low levels of the network, learning is typically accomplished by an external learning algorithm such as back-propagation. In the current work, we present an integration of the two functions above, which appear unrelated, using a single unified mechanism. We propose a novel symmetric bottom-up top-down network structure that can integrate standard bottom-up networks with a symmetric top-down counterpart, allowing each network to guide and influence the other. The same top-down network is being used for both learning, via back-propagating feedback signals, and at the same time also for top-down attention, by guiding the bottom-up network to perform a selected task. We show that our method achieves competitive performance on a standard multi-task learning benchmark. Yet, we rely on standard single-task architectures and optimizers, without any task-specific parameters. Additionally, our learning algorithm addresses in a new way some neuroscience issues that arise in biological modeling of learning in the brain.

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