Research explores how machine learning improves understanding of brain data during cognitive tasks.
― 6 min read
Quantitative Biology - Neurons and Cognition
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A method to create clear text representations using yes/no questions.
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Exploring memory formation and learning processes in biological and artificial systems.
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A new method to align machine learning with human thinking using generative similarity.
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Understanding deep learning models improves trust in medical imaging diagnoses.
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Exploring how cognitive neuroscience can improve AI model comprehension.
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A novel method improving brain data analysis efficiency using self-supervised learning.
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CORTEX leverages supercomputing to enhance brain simulation and understanding.
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Exploring place cells and their interactions may enhance navigation systems and AI.
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A study on improving neural network training with non-differentiable activation functions.
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Research shows how self-attention enhances neural response modeling in deep learning.
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Research reveals how noise aids the brain's statistical learning process.
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New device uses fNIRS to reconstruct images from brain activity.
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This article discusses how neuron models help analyze complex brain activity.
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Exploring how mental actions may affect ion scattering in neurons.
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This article examines chaotic behavior in neuron models, focusing on the Rulkov neuron.
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A deep dive into how well vision models recognize and represent multiple objects.
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Introducing CrEIMBO, a method for better understanding neural interactions across brain recordings.
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A new method to enhance network visuals by focusing on edge crossings.
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Analyzing how noise influences the efficiency of transport systems.
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This research explores how to manage neural activities with advanced control methods.
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Exploring how agents balance performance and resource costs in unpredictable settings.
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A study on how monkey eye movements relate to AI predictions in a game.
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BrainMAE approach enhances analysis of brain data using fMRI.
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An overview of how the brain encodes and retrieves memories of space.
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Research introduces a framework to improve understanding of brain networks and connectivity.
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Study reveals how combined neuron efforts enhance prediction abilities.
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MFC reveals how brain regions connect and change during various activities.
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A new method improves analysis of complex neural spiking data.
― 6 min read