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Decoding Neuronal Networks: A Reservoir Computing Approach for Predicting Connectivity and Functionality
March 6, 2024, 5:43 a.m. | Ilya Auslender, Giorgio Letti, Yasaman Heydari, Clara Zaccaria, Lorenzo Pavesi
cs.LG updates on arXiv.org arxiv.org
Abstract: In this study, we address the challenge of analyzing electrophysiological measurements in neuronal networks. Our computational model, based on the Reservoir Computing Network (RCN) architecture, deciphers spatio-temporal data obtained from electrophysiological measurements of neuronal cultures. By reconstructing the network structure on a macroscopic scale, we reveal the connectivity between neuronal units. Notably, our model outperforms common methods like Cross-Correlation and Transfer-Entropy in predicting the network's connectivity map. Furthermore, we experimentally validate its ability to forecast …
abstract architecture arxiv challenge computational computing connectivity cs.lg data decoding network networks physics.bio-ph q-bio.qm study temporal type
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