How Clever Are You Really? Scientists Can Now Accurately Measure Human Intelligence | HuffPost

This could lead to the creation of truly intelligent AI.

By

Reporter at HuffPost UK

How clever do you think you are? Normally we would try and define such a benchmark using something like the IQ test.

However a new MRI scanning technique could force us to ditch the test as scientists have achieved a world first in attempting to define and measure human intelligence.

Professor Jianfeng Feng and his team in the Department of Computer Science conducted the groundbreaking research at Warwick University.

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The aim of the research was to discover how intellect works in the human brain and thereby inform how Artificial Intelligence (AI) works in the future.

The study used MRI scans to observe thousands of brains and was only possible due to recent developments in brain imaging techniques.

They conclusively found that the more variable a person’s brain is - how frequently you can change neural connections with the other parts of the brain over minutes or seconds - and the more frequently these parts connect with each other, the higher a person’s IQ and creativity.

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The discovery of these dynamic functions inside the brain could be applied to building artificial networks that mimic the brain, with the ability to learn and adapt – a current obstacle in the effectiveness of AI.

Not only does this study have implications for technology, it is important in understanding mental health.

The team observed alternative patterns of variability in the brain’s “default network” when patients had schizophrenia, autism or ADHD.

Feng said: “It has given us the opportunity to gain sufficient insights to resolve this and inform developments in artificial intelligence, as well as help establish the basis for understanding and diagnosis of debilitating human mental disorders such as schizophrenia and depression.”

Stunning Brain Images Reveal Beauty Of Fragile Brain

Sensory Superhighway(01 of15)

Just like the electrical wires in the national grid, the electrical connections between brain cells, as shown in this picture, have to be well insulated. If this insulation is lost, neurons lose their ability to communicate efficiently. This is what happens in several neurological diseases including multiple sclerosis (MS). (credit:University of Edinburgh)

Navigating Axons: A Circuitous Route(02 of15)

This colorful picture shows the wiring in a developing brain. Axons (red) are the cables that neurons use to transmit their information, often over relatively long distances and taking highly circuitous routes. The other colors represent different areas of the brain. (credit:University of Edinburgh)

Glial Grandeur(03 of15)

At first glance this may look like a spider’s web but this web measures just 1/20 of a millimeter. It is made up of two types of brain cells – astrocytes in green and a white oligodendrocyte. These cells were originally thought of as the support cells for neurons but it is now known they are essential for many brain functions. (credit:University of Edinburgh)

Female Mosaic(04 of15)

This picture of neurons from a female brain highlights those that have switched off the X chromosome inherited from the mother (in green), and those that have silenced the X chromosome inherited from the father (in red). In cases where an altered gene on one of the X chromosomes causes autism or intellectual disability, only around a half of the cells will be affected. This helps to explain why these conditions are less common in women than in men. (credit:University of Edinburgh)

Breakdown In Communication(05 of15)

This image shows differences between a typical brain (left) and autism (right). The different colors identify different areas of the brain. (credit:University of Edinburgh)

The Astrocyte(06 of15)

These star-shaped cells, or “astrocytes,” were once thought to be simple support cells for neurons. Now we know that they are much more important than this--they also help to create and maintain an environment in the brain that is optimized for electrical and chemical communication. (credit:University of Edinburgh)

Neuron Networks(07 of15)

Scientists can use mathematics to model brain circuitry, as shown in this picture. They use this approach to predict how brain communication is altered in neuropsychiatric disorders, such as anxiety and ADHD. (credit:University of Edinburgh)

Wiring The Brain(08 of15)

This is a detailed map of the brain wiring in a sleeping newborn baby (left) and an adult in their seventies (right), visualized using MRI. (credit:University of Edinburgh)

Circuit Building Block(09 of15)

Neurons have branched projections that extend from their cell body called dendrites which give the cells a tree-like appearance. It’s through these dendrites that neurons receive information from hundreds to thousands of other cells. (credit:University of Edinburgh)

Encoding Space(10 of15)

Our brains hold specialized neurons called grid cells that help us to keep track of where we are. This heat map shows the regions in space where an individual grid cell becomes active during exploration of a circular room. (credit:University of Edinburgh)

The Egg: Mendel's Moment(11 of15)

This picture shows the egg or “oocyte” preparing the genes that will be passed on to its offspring, which are highlighted in red. (credit:University of Edinburgh)

Regenerating Spinal Cord(12 of15)

Images such as this one, which shows the spinal cord from a zebrafish repairing itself, are helping scientists to study biological mechanisms that could one day reveal treatments for people who are paralyzed due to spinal cord damage. (credit:University of Edinburgh)

High Fidelity(13 of15)

This picture shows the difference in brain signals from a typical brain (left) and from a brain affected by a condition similar to Fragile X Syndrome, the most common inherited form of autism (right). (credit:University of Edinburgh)

The Seahorse(14 of15)

This is a close-up image of a particular area of the brain called the hippocampus, named from the Greek word for “seahorse” because of its shape. (credit:University of Edinburgh)

A Fragile Balance(15 of15)

This image shows a series of MRI pictures from the brain of an individual with Fragile X Syndrome, the most common inherited form of autism. (credit:University of Edinburgh)

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