Building AI more like the human brain may matter far more than flooding it with data.
New research from Johns Hopkins University shows that artificial intelligence systems built with designs inspired by biology can begin to resemble human brain activity even before they are trained on any data. The study suggests that how AI is structured may be just as important as how much data it processes.
The findings, published inNature Machine Intelligence, challenge the dominant strategy in AI development. Instead of relying on months of training, enormous datasets, and vast computing power, the research highlights the value of starting with a brain-like architectural foundation.
"The way that the AI field is moving right now is to throw a bunch of data at the models and build compute resources the size of small cities. That requires spending hundreds of billions of dollars. Meanwhile, humans learn to see using very little data," said lead author Mick Bonner, assistant professor of cognitive science at Johns Hopkins University. "Evolution may have converged on this design for a good reason. Our work suggests that architectural designs that are more brain-like put the AI systems in a very advantageous starting point."
Bonner and his colleagues aimed to test whether architecture alone could give AI systems a more human-like starting point, without relying on large-scale training.
The research team focused on three major types of neural network designs commonly used in modern AI systems: transformers, fully connected networks, and convolutional neural networks.
They repeatedly adjusted these designs to create dozens of different artificial neural networks. None of the models were trained beforehand. The researchers then showed the untrained systems images of objects, people, and animals and compared their internal activity to brain responses from humans and non-human primates viewing the same images.
Increasing the number of artificial neurons in transformers and fully connected networks produced little meaningful change. However, similar adjustments to convolutional neural networks led to activity patterns that more closely matched those seen in the human brain.
According to the researchers, these untrained convolutional models performed on par with traditional AI systems that typically require exposure to millions or even billions of images. The results suggest that architecture plays a larger role in shaping brain-like behavior than previously believed.
"If training on massive data is really the crucial factor, then there should be no way of getting to brain-like AI systems through architectural modifications alone," Bonner said. "This means that by starting with the right blueprint, and perhaps incorporating other insights from biology, we may be able to dramatically accelerate learning in AI systems."
The team is now exploring simple learning methods inspired by biology that could lead to a new generation of deep learning frameworks, potentially making AI systems faster, more efficient, and less dependent on massive datasets.
- RELATED TOPICS Mind & Brain Intelligence Social Psychology Consumer Behavior Psychology Computers & Math Computers and Internet Computer Modeling Neural Interfaces Artificial Intelligence
- Mind & Brain Intelligence Social Psychology Consumer Behavior Psychology
- Social Psychology
- Consumer Behavior
- Computers & Math Computers and Internet Computer Modeling Neural Interfaces Artificial Intelligence
- Computers and Internet
- Computer Modeling
- Neural Interfaces
- Artificial Intelligence
- RELATED TERMS Workaholic Artificial intelligence Robot Mathematical model Quantum computer Brain Human brain Psychology
- Artificial intelligence
- Mathematical model
- Quantum computer
Materialsprovided byJohns Hopkins University.Note: Content may be edited for style and length.
- Atlas Kazemian, Eric Elmoznino, Michael F. Bonner. Convolutional architectures are cortex-aligned de novo. Nature Machine Intelligence, 2025; 7 (11): 1834 DOI: 10.1038/s42256-025-01142-3
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Source: Sciencedaily
