Jumat, 26 April 2019

Researchers find a better power law that predicts earthquakes, blood vessels, bank accounts - Phys.org

Researchers find a better power law that predicts earthquakes, blood vessels, bank accounts
Because veins branch in roughly proportionate divisions, they are also considered a fractal. Credit: Courtesy image/Mitchell Newberry

Giant earthquakes and extreme wealth may not appear to have much in common, but the frequency with which the "Big One" will hit San Francisco and how often someone will earn as much money as Bill Gates can both be predicted with a statistical measurement called a power law exponent.

For the last century, researchers have used what's called a power law to predict certain kinds of events, including how frequently earthquakes at certain points on the Richter scale will occur. But a University of Michigan researcher noticed that this power law does not fit all circumstances.

Mitchell Newberry, a Michigan fellow and assistant professor at the U-M Center for the Study of Complex Systems, suggests an adjustment to the power law that would account for events that increase or decrease in fixed proportions—for example, when a manager makes roughly 20 percent more than his or her employee.

These adjustments affect how to estimate probabilities of earthquakes, the number of capillaries in the human body, and the sizes of megacities and solar flares. And they may revise when to expect the next Big One.

When scientists plot something like the likelihood of extreme wealth on a graph, the curve is a smooth line. That's because people can have any amount of money in their .

"The smoothness of this curve means that any value is possible," Newberry said. "I could make one penny more just as easily as one penny less."

That's not exactly the case with events such as earthquakes because of how they are recorded on the Richter scale. The Richter magnitude of earthquakes increases or decreases in increments of 0.1, exponentially. A magnitude 3.1 earthquake is 1.26 times as powerful as magnitude 3.0 earthquakes, so not every value is possible on the scale. The Richter scale is an example of a concept called "self-similarity," or when an event or thing is made of proportionately smaller copies of itself.

You can see self-similarity in nature as the branching of veins in a leaf, or in geometry as fitting triangles within larger triangles of the same shape, called a Sierpinski triangle. So, to account for events that change in exact proportions, Newberry and his co-author Van Savage of the University of California, Los Angeles, constructed the discrete power law.

Researchers find a better power law that predicts earthquakes, blood vessels, bank accounts
The Koch curve infinitely repeats itself, displaying self-similarity. Credit: Wikimedia user Leofun01

In these power law equations, the exponent in the equation is the variable scientists are solving for. In earthquakes, that exponent, called the Gutenberg-Richter b value, was first measured in 1944 and indicates how often an earthquake of a certain strength is likely to occur. Newberry's discrete power law produced an 11.7% correction over estimates based on the continuous power law, bringing the exponent closer in line with the historical frequency of big earthquakes. Even a 5% correction translates to a more than twofold difference in when to expect the next giant .

"For 100 years, people have been talking about roughly one kind of power law distribution. It's the power law distribution of wealth and earthquakes," Newberry said. "Only now, we're documenting these discrete scales. Instead of a smooth curve, our power law looks like an infinite staircase."

Newberry noticed the flaw in the continuous power law in his study of the physics of the circulatory system. The circulatory system begins with one large blood vessel: the aorta. As the aorta splits into different branches—the carotid and subclavian arteries—each new branch decreases in diameter by roughly two-thirds.

He was using the continuous power law to estimate the sizes of blood vessels as they continue to branch. But the power law yielded sizes of blood vessels that could not occur. It indicated that a blood vessel might be only slightly smaller than the trunk from which it branched instead of around two-thirds of that trunk's size.

"Using the continuous power law, we were just getting answers we knew were wrong," Newberry said. "By debugging what failed, we figured out that this distribution makes the assumption that every blood vessel size is equally plausible. We know that for real vasculature, that's not the case."

So Newberry reverse-engineered the power law. By looking at blood vessels, Newberry could deduce the power law exponent from two constants: how many branches at each junction—two—and how much smaller each branch is relative to the trunk. Measuring vessel sizes at every division, Newberry was able to solve for the distribution of the blood vessels.

"There's some middle ground between a continuous power law and the discrete power law," Newberry said. "In the discrete power law, everything is laid out in perfectly rigid proportions from the highest scale to the infinitesimally small. In the continuous , everything is perfectly randomly laid out. Almost everything self-similar in reality is a mix of these two."

Newberry's study is published in the journal Physical Review Letters.


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Prediction of large earthquake probability improved

More information: Mitchell G. Newberry et al. Self-Similar Processes Follow a Power Law in Discrete Logarithmic Space, Physical Review Letters (2019). DOI: 10.1103/PhysRevLett.122.158303

Citation: Researchers find a better power law that predicts earthquakes, blood vessels, bank accounts (2019, April 26) retrieved 26 April 2019 from https://phys.org/news/2019-04-power-law-earthquakes-blood-vessels.html

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https://phys.org/news/2019-04-power-law-earthquakes-blood-vessels.html

2019-04-26 18:14:19Z
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