Abstract
Abstract Despite recent technological advances in Brain-Computer Interfaces, we continue to struggle with acquiring high-resolution (spatial and temporal) deep brain neural activity patterns. Making sense of the measured data regarding its correlation to the higher-level cognitive processes is an even bigger challenge. The author of this study proposes a standardized invasive in vivo method for (a) extracting and (b) decoding deep brain neural dynamics using multielectrode array implants. Based on neuroplasticity, the method would enforce neural conditioning, which would decode and convey neural correlates’ activities onto the multielectrode array pins. Applied inversely, it would allow encoding and eliciting desired sensations in the subject’s brain. A simple unsupervised recurrent neural network model is built to demonstrate the method. This study is theoretical, and an experimental animal trial is proposed to test the demonstrated method.
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