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Study develops deep learning model to simulate brain topography

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Washington | February 5, 2022 5:50:33 PM IST
A team of researchers have developed a computational model that allows them to simulate the spatial organization or topography of the IT and learn more about how neighbouring clusters of brain tissue are organized and interact.

The study has been published in the 'Proceedings of the National Academy of Sciences Journal'.

The researchers -- Nicholas Blauch, a PhD student in the Program in Neural Computation, and his advisors David C. Plaut and Marlene Behrmann, both professors in the Department of Psychology and the Neuroscience Institute at CMU -- described the model in their study.

Blauch said that the paper may help cognitive neuroscientists answer longstanding questions about how different parts of the brain work together.

"We have been wondering for a long time if we should be thinking of the network of regions in the brain that responds to faces as a separate entity just for recognizing faces, or if we should think of it as part of a broader neural architecture for object recognition," Blauch said.

"We're trying to come at this problem using a computational model that assumes this simpler, general organization, and seeing whether this model can then account for the specialization we see in the brain through learning to perform tasks," he added.

To do so, the researchers developed a deep learning model endowed with additional features of biological brain connectivity, hypothesizing that the model could reveal the spatial organization or topography of the IT.

"The brain doesn't have unlimited volume," Blauch explained.

"It needs to try to keep the amount of white matter -- used to connect different areas of the brain -- to a minimum required for effective communication, so there is space for the more grey matter -- or neurons -- to compute information," he added.

Blauch also explained that most of the connections between areas in the brain are from excitatory neurons, whereas connections within a brain area are mediated by both excitatory and inhibitory neurons. In most deep learning models, artificial neurons can individually both excite and inhibit other neurons.

Following these principles, the researchers set up a basic network architecture and a cost function that emphasizes learning to recognize images, while trying to keep connections short. The scientists trained the model, referred to as an Interactive Topographic Network, to recognize images from different domains: faces, objects and scenes. Once the model had learned to recognize these images, they found that it had produced selective spatial areas for each domain, as seen in the brain.

Next, they simulated lesions or brain damage to each area. When they introduced lesions to the area in the model selective for face recognition, they saw a big deficit in the model's ability to recognize faces. They got the same result with the object and scene domains. They also discovered the damage was not entirely specific.

"There is some residual damage to the other domains," Blauch said.

"It's small compared to the preferred domain, but it shows us that the specialization within these networks can be strong but also somewhat mixed. That, combined with the general principles employed by the whole system, implies that it may be better thought of as one system with internal specialization rather than a collection of independent modules," he added.

A general, flexible system might be more capable of reorganization after damage, as is seen in children who largely recover visual function after damage early in life, in contrast to adults with similar damage.

The researchers plan to expand the model to investigate further questions about the visual system, including interactions between the organization of IT and other areas of the brain. (ANI)

 
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