Community members investigating a landslide in Yangbari, Papua New Guinea, in 2024
Xinhua Newsletter/Aramie
In the event of a landslide, pinpointing the location can be crucial for rescue teams. Recent advancements in earthquake data analysis have made it possible to identify the source of such disasters within just a few kilometers in a matter of seconds.
Current methods can generally limit the area of interest to tens of kilometers, as noted by Stefania Ursica from the Helmholtz Geoscience Centre in Germany. This limitation can result in significant delays if rescuers are directed to an incorrect site. “The time lost is critical,” Ursica stated during a press briefing at the European Geoscience Union Conference in Vienna last week.
Numerous countries maintain seismic monitoring networks to track earthquakes and volcanic activity. This data can also aid in detecting landslides, especially as the risks associated with climate change intensify. However, analyzing data from landslides is considerably more complex than that from earthquakes, according to Ursica.
Her team’s innovative approach involves two key components. First, they assess five distinct facets of the seismic waveform and filter out noise when an event occurs.
This information is processed by numerous mathematical agents that seek the origin of the initial rock-like event that leads to a landslide. They accomplish this by estimating which waveforms would have been generated at various possible locations and comparing those estimations with the data captured. If the waveforms do not align, they will explore other options.
Each agent “travels” following patterns inspired by animal behavior, such as the spiral of falcons or the migration paths of elephants, until they converge back to the most plausible site of the event. This whole procedure takes approximately 10 seconds, providing far greater accuracy than previous methods. “It’s a few digits of improvement,” Ursica adds.
Aside from enhancing rescue operations, this new technique will assist researchers in locating events in remote regions where satellite data may be limited or unavailable.
The team plans to release their findings and make the underlying code accessible to the public.
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Source: www.newscientist.com
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