Exploring Neural-AI Connections

At Neurocognition Lab, we investigate neural correspondence mapping, cognitive biases, and working memory simulations to bridge AI and human cognition.

A metallic robotic hand and a human hand point towards each other at the center. Between them, there is a stylized, crystal-like representation of the letters 'AI'. The background is a gradient of orange shades.

A metallic robotic hand and a human hand point towards each other at the center. Between them, there is a stylized, crystal-like representation of the letters 'AI'. The background is a gradient of orange shades.

A small, white humanoid robot with blue accents, including eyes, mouth, and a circular badge with the letters 'AI' on its chest, is positioned in front of a blue laptop on a metallic surface. The robot has a simple, smooth design with two cylindrical arms and a small antenna on top.

A small, white humanoid robot with blue accents, including eyes, mouth, and a circular badge with the letters 'AI' on its chest, is positioned in front of a blue laptop on a metallic surface. The robot has a simple, smooth design with two cylindrical arms and a small antenna on top.

A close-up view of reflective surfaces displaying blurred text with words related to cognitive processes such as create, integrate, and discern. The text is predominantly white and appears on a dark background, creating a high contrast. The reflective surfaces create a distorted and layered effect, adding depth to the image.

A close-up view of reflective surfaces displaying blurred text with words related to cognitive processes such as create, integrate, and discern. The text is predominantly white and appears on a dark background, creating a high contrast. The reflective surfaces create a distorted and layered effect, adding depth to the image.

Our Mission

We aim to enhance understanding of cognitive processes through advanced AI techniques, revealing insights into human-like biases and memory mechanisms.

Neural Mapping

Exploring neural correspondences through advanced AI interpretability techniques.

A stylized silhouette of a human head made up of circuit-like patterns on the left. Beside it, abstract geometric shapes resembling interconnected circuit components, suggesting technology and artificial intelligence themes.

A stylized silhouette of a human head made up of circuit-like patterns on the left. Beside it, abstract geometric shapes resembling interconnected circuit components, suggesting technology and artificial intelligence themes.

Cognitive Biases

Investigating systematic biases in AI and human psychology.

A close-up view of a computer motherboard with a prominent microchip labeled 'AI' at the center. The board is densely populated with circuits, capacitors, and other electronic components in various shades of gray, black, and gold.

A close-up view of a computer motherboard with a prominent microchip labeled 'AI' at the center. The board is densely populated with circuits, capacitors, and other electronic components in various shades of gray, black, and gold.

Memory Simulation

Comparing working memory mechanisms in AI and humans.

Bias Studies

Testing AI models against documented human psychological biases.

Activation Patterns

Mapping model activations to known brain network functions.

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Contact Us

Reach out for inquiries on neural mapping and cognitive studies.