Signal #131855NEUTRAL

FLYNN: Robust Neural Network for Robot Navigation using Fly Brain Topology

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arXiv:2607.00025v1 Announce Type: new Abstract: While deep learning models achieve state-of-the-art performance in complex tasks, they remain brittle when faced with new environments or sensory deprivation. In contrast, biological systems exhibit remarkable tolerance to these challenges. We address this vulnerability by developing a recurrent neural network (RNN) whose architecture is directly derived from the synaptic-resolution brain connectome of the fruit fly Drosophila melanogaster. We demonstrate the feasibility of training the fly connectome neural network (FLYNN) to perform vision-based navigation in MuJoCo, achieving performance comparable to modern hand-crafted networks of similar parameter counts. Crucially, FLYNN exhibits superior resistance to out-of-distribution (OOD) data and tolerance to sensory loss without further training. It remained functional even under total vision loss while hand-crafted networks largely failed, even when specifically trained with camera dropout...

arXiv Roboticsabout 5 hours ago
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FLYNN: Robust Neural Network for Robot Navigation using Fly Brain Topology | Steek AI Signal | Steek