Study participants were asked to complete tasks such as listing hypothetical coin flip results, trying to make the list appear as random as possible. Credit: frankieleon / Flickr, CC BY 2.0 People’s ability to make random choices or mimic a random process, such as coming up with hypothetical results for a series of coin flips, peaks around age 25, according to a study published in PLOS Computational Biology. Scientists believe that the ability to behave in a way that appears random arises from some of the most highly developed cognitive processes in humans, and may be connected to abilities such as human creativity. Previous studies have shown that aging diminishes a person’s ability to behave randomly. However, it had been unclear how this ability evolves over a person’s lifetime, nor had it been possible to assess the ways in which humans may behave randomly beyond simple statistical tests.
To better understand how age impacts random behavior, Nicolas Gauvrit and colleagues at the Algorithmic Nature Group, LABORES for the Natural and Digital Sciences, Paris, assessed more than 3,400 people aged 4 to 91 years old. Each participant performed a series of online tasks that assessed their ability to behave randomly.
The five tasks included listing the hypothetical results of a series of 12 coin flips so that they would ”look random to somebody else,” guessing which card would appear when selected from a randomly shuffled deck, and listing the hypothetical results of 10 rolls of a die—”the kind of sequence you’d get if you really rolled a die.”The video will load shortlyThis is an attempt to explain what we think are some of the most salient results of our research packed in a 4-minute video. Among other striking results, we have recently shown that humans best outsmart computers when they are tested on randomness generation at the age of 25. When competing against all possible algorithms, humans behave most algorithmic random behaving more creative and producing more randomness than most computer programs peaking at 25 years old. All other types of randomness, such as statistical randomness, can be more easily generated but they do not reveal the full force of algorithmic random generation.Citation: Gauvrit N, Zenil H, Soler-Toscano F, Delahaye J-P, Brugger P (2017) Human behavioral complexity peaks at age 25. PLoS Comput Biol 13(4): e1005408. Credit: Hector Zenil, CC BYThe scientists analyzed the participants’ choices according to their algorithmic randomness, which is based on the idea that patterns that are more random are harder to summarize mathematically. After controlling for characteristics such as gender, language, and education, they found that age was the only factor that affected the ability to behave randomly. This ability peaked at age 25, on average, and declined from then on.
”This experiment is a kind of reverse Turing test for random behavior, a test of strength between algorithms and humans,” says study co-author Hector Zenil. ”25 is, on average, the golden age when humans best outsmart computers,” adds Dr. Gauvrit.
The study also demonstrated that a relatively short list of choices, say 10 hypothetical coin flips, can be used to reliably gauge randomness of human behavior. The authors are now using a similar approach to study potential connections between the ability to behave randomly and such things as cognitive decline and neurodegenerative diseases.
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More information: Gauvrit N, Zenil H, Soler-Toscano F, Delahaye J-P, Brugger P (2017) Human behavioral complexity peaks at age 25. PLoS Comput Biol 13(4): e1005408. doi.org/10.1371/journal.pcbi.1005408
Journal reference:PLoS Computational Biology
Provided by:Public Library of Science