2018
DOI: 10.5194/esurf-2018-36
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Automatic detection of avalanches using a combined array classification and localization

Abstract: Abstract.We use a seismic monitoring system to automatically determine the avalanche activity at a remote field site near Davos, Switzerland. By using a recently developed approach based on hidden Markov models (HMMs), a machine learning algorithm, we were able to automatically identify avalanches in continuous seismic data by providing as little as one single training event. Furthermore, we implemented an operational method to provide near real-time classification results. For the 2016-2017 5 winter period 11… Show more

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Cited by 3 publications
(2 citation statements)
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“…In microseismic studies, machine learning algorithms have proven useful for detecting near-surface seismic sources 40 and identifying noise time series suitable for interferometric studies 19 . These approaches could be applied to DAS records and enhanced with array techniques 41 such as matchedfield processing used here. Moreover, records from geophones or seismometers installed sparsely along the fiber-optic cable can help to efficiently scan DAS records for repeating glacier stick-slip events: template searches such as shown in Fig.…”
Section: Discussionmentioning
confidence: 99%
“…In microseismic studies, machine learning algorithms have proven useful for detecting near-surface seismic sources 40 and identifying noise time series suitable for interferometric studies 19 . These approaches could be applied to DAS records and enhanced with array techniques 41 such as matchedfield processing used here. Moreover, records from geophones or seismometers installed sparsely along the fiber-optic cable can help to efficiently scan DAS records for repeating glacier stick-slip events: template searches such as shown in Fig.…”
Section: Discussionmentioning
confidence: 99%
“…1b) with an eigenfrequency of 4.5 Hz, and data were recorded using a 24-bit acquisition system with a sampling rate of 500 Hz (van Herwijnen and Schweizer, 2011). To increase the signal-to-noise ratio, the sensors were buried 30 to 50 cm deep as suggested by Heck et al 2018. For this study, we used data from two sensors deployed at a distance of 35 m (yellow dots in Figure 1c).…”
Section: Field Site and Instrumentationmentioning
confidence: 99%