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-### About the our Research Lab
+### About our Research Lab
 
 Our research lab investigates the complex workings of the human brain through a multi-pronged approach. We utilize functional magnetic resonance imaging (fMRI) to capture brain activity patterns during various cognitive tasks. This data is then analyzed using deep learning algorithms, allowing us to identify neural networks associated with specific functions. To complement these large-scale studies, we delve into intriguing side projects. One such project involves simulating the simple yet captivating "Game of Life" cellular automata model. By analyzing the emergent patterns within the simulation, we aim to draw inferences that might illuminate fundamental principles of information processing within the brain. This combined approach – encompassing advanced neuroimaging, deep learning, and creative simulations – grants us a unique perspective to unlock the mysteries of the human mind.

_pages/research.md

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-# Research
+# Game of life
 
 Game of life
 
 Our research utilizes a unique cellular automata model inspired by Conway's Game of Life. We introduce an "environment" where individual organisms, represented by cellular automata patterns, evolve and interact. These organisms possess a genetic code, analogous to weights in neural networks, that determines their response to the surrounding environment. By recording and analyzing these genetic codes after multiple generations, we aim to uncover emergent patterns and strategies that lead to survival and success within the simulated ecosystem. This approach offers a bridge between artificial and biological systems, potentially shedding light on the evolution of complex behaviors. By understanding how simple rules and genetic variations can lead to diverse outcomes in the model, we may gain valuable insights into the intricate interplay between genetics, environment, and behavior, potentially informing future research in neuroscience and the functioning of the human brain.
 
 
 
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+# 
 
 Murmur