This research tried to reproduce the findings of an earlier human connectome project that showed a negative correlation between functional global network efficiency and general intelligence (g). Participants will complete a general intelligence test and global functional networking efficiency tests. Psychology studies show a relationship between general intelligence (or global function network efficiency) and psychological ability. The global functional network efficiency is what will allow for the association between intelligence and cognitive task performance (Kruschwitz, et al. 2018, 2018). This study revealed the value of general intelligence for psychological research as well as its ability to enhance cognitive function. It is possible to clarify the relationship between cognitive performance and general intelligence by looking at global functional network efficiency and general intelligence.
The present investigation was conducted using the HCP 1200 dataset. HCP 1200, which contains data from nearly 1,200 individuals, is a large-scale experimental on the brain’s connectivity. To evaluate the findings of an earlier study which showed a negative correlation between general intelligence (g), and functional global networking efficiency (FNE), this research employed a replication strategy.
FNE was not found to be connected with crystallized or fluid intelligence (Cl), according to this investigation. These findings indicate that FNE does not exist in the context of general intelligence, crystallized Intelligence, or fluid intelligence. New research shows that FNE does not measure global brain network efficiency. This study suggests that future research needs to focus on the relationship between intelligence characteristics and brain function. (Kruschwitz, et al. 2018). FNE, while a good metric to assess the effectiveness of brain’s neural networks is still an important metric. However, it must be evaluated alongside other intelligence measures.
According to research, intelligence in humans is linked to brain’s intrinsic network architecture. Diffusion tensor imagery (DTI), was used by the researchers to examine brain fiber pathways. The brain networks of people with high intelligence were better. This confirms that intellect does not simply result from an increase in processing ability, but is also the result fundamental changes in how the brain processes information. It is evident that even if a person’s IQ is low, the brain functions similarly to people who are higher IQ. This shows that intelligence goes beyond our problem solving skills. It also includes our ability organize information. The current research also offers the opportunity to examine further the relation between FNE, and other types of intelligence.
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