Artificial intelligence algorithm predicts slow earthquakes
A team of researchers has succeeded in creating an artificial intelligence (AI) algorithm that can identify changes in the earth’s crust that occur up to three months before an earthquake.
On Aug. 21, Indonesia was struck by a 6.9-magnitude earthquake. Fortunately, it was a deep-focus temblor which did not result in loss of life or material damage. However, the country, which is located on the Pacific Ring of Fire, has an extensive record of highly dangerous seismic activity. As recently as 2018, the archipelago was struck by a 7.5 magnitude earthquake, which was part of a series of quakes and tsunamis that killed thousands in the country.
Article continues after this advertisementScientists are now wondering if devastation on this scale could be avoided using systems developed by artificial intelligence, among them a team of researchers from the French École Normale Supérieure (ENS), which recently announced the discovery of an AI algorithm to predict seismic events in the journal Nature Communications.
A focus on ‘slow’ earthquakes
This latest research project adopted a simple approach that involved feeding a deep learning machine with large amounts of seismic data recorded before quakes occurred. The goal was to develop an algorithm with the ability to detect recurrent phenomena that lead up to a significant seismic event.
Article continues after this advertisementThe machine was initially trained using laboratory earthquakes, before being adapted to look for signs of “slow” earthquakes under Vancouver Island, Canada. Seismic events of this kind, which share many characteristics with more devastating fast earthquakes, can last for a period of weeks or even months. Given that they are slow, they hardly generate any seismic waves and as a result do not usually cause much in the way of damage. At the same time, the fact that they take place over a long period makes them easier to analyze.
Promising results
The algorithm created a list of characteristics that precede the appearance of earthquakes. Among them, the researchers noted an exponential increase in seismic energy prior to rupture, as if more and more tiny seismic waves were being emitted from the seismic zone. These crackles were noticeable up to three months before a slow earthquake would usually be detected, which means that the advent of these phenomena could be predicted well in advance.
The AI agent also found that the tremors start on a very small scale and then accelerate before becoming visible to the naked eye, as they do in fast earthquakes.
What about detecting major earthquakes?
As it stands, there has been little progress towards this goal.
“If you look at this question in terms of time scales: a slow earthquake lasts for a month, and preceding signals are detectable for 100 days (a little over three months) in advance of the event. A high magnitude major earthquake lasts for 10 to 100 seconds, which means that preceding signals should be observed 30 to 300 seconds before it takes place…,” said Claudia Hulbert and Romain Jolivet in a layman’s explanation of their work published in The Conversation.
However, as it stands none of this has been proven, and perhaps more to the point, what would we do with a warning that comes just five minutes before a catastrophe? Hugely destructive earthquakes are also relatively rare, which means that researchers do not have enough seismic data to train an AI to predict them. Further study of the mechanics of seismic events so that they can be modeled by computers and eventually predicted appears to be the most promising research strategy for the moment. JB
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