Neurocomputational model could shed light on the development of cognitive abilities

A new study introduces a new neurocomputational model of the human brain that could shed light on how the brain develops complex cognitive abilities and advance neural artificial intelligence research. Published Sept. 19, the study was carried out by an international group of researchers from the Institut Pasteur and Sorbonne Université in Paris, the CHU Sainte-Justine, Mila – Quebec Artificial Intelligence Institute, and Université de Montréal.

The model, which made the cover of the journal Proceedings of the National Academy of Sciences of the United States of America (PNAS), describes neural development over three hierarchical levels of information processing:

  • the first sensorimotor level explores how the brain's inner activity learns patterns from perception and associates them with action;
  • the cognitive level examines how the brain contextually combines those patterns;
  • lastly, the conscious level considers how the brain dissociates from the outside world and manipulates learned patterns (via memory) no longer accessible to perception.

The team's research gives clues into the core mechanisms underlying cognition thanks to the model's focus on the interplay between two fundamental types of learning: Hebbian learning, which is associated with statistical regularity (i.e., repetition) – or as neuropsychologist Donald Hebb has put it, "neurons that fire together, wire together" – and reinforcement learning, associated with reward and the dopamine neurotransmitter.

The model solves three tasks of increasing complexity across those levels, from visual recognition to cognitive manipulation of conscious percepts. Each time, the team introduced a new core mechanism to enable it to progress.

The results highlight two fundamental mechanisms for the multilevel development of cognitive abilities in biological neural networks:

  • synaptic epigenesis, with Hebbian learning at the local scale and reinforcement learning at the global scale;
  • and self-organized dynamics, through spontaneous activity and balanced excitatory/inhibitory ratio of neurons.

Our model demonstrates how the neuro-AI convergence highlights biological mechanisms and cognitive architectures that can fuel the development of the next generation of artificial intelligence and even ultimately lead to artificial consciousness"

Guillaume Dumas, team member, assistant professor of computational psychiatry at UdeM, and principal investigator at the CHU Sainte-Justine Research Centre

Reaching this milestone may require integrating the social dimension of cognition, he added. The researchers are now looking at integrating biological and social dimensions at play in human cognition. The team has already pioneered the first simulation of two whole brains in interaction.

Anchoring future computational models in biological and social realities will not only continue to shed light on the core mechanisms underlying cognition, the team believes, but will also help provide a unique bridge to artificial intelligence towards the only known system with advanced social consciousness: the human brain.

Source:
Journal reference:

Volzhenin, K., et al. (2022) Multilevel development of cognitive abilities in an artificial neural network. PNAS. doi.org/10.1073/pnas.2201304119.

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