L. Castellana scite author profile

Abstract. The analysis of the VLF signals radiated by ground transmitters and received on board of the French DEMETER satellite, reveals a drop of the signals (scattering spot) connected with the occurrence of large earthquakes. The extension of the "scattering spots" zone is large enough (1000-5000 km) and, probably, it increases with the magnitude of the "relative" earthquake. A possible model to explain the phenomenology, based on the acoustic gravity waves and the ionosphere turbulence, is proposed. The method of diagnostics applied to this study has the advantage to be a global one due to the world wide location of the powerful VLF transmitters and of the satellite reception. However, a specific disadvantage exists because the method requires rather a long time period of analysis due to the large longitudinal displacements among the successive satellite orbits. At the moment, at least, one month seems to be necessary.

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Possible seismo-ionosphere perturbations revealed by VLF signals collected on ground and on a satellite

Рожной

Molchanov

Solovieva

et al. 2007

Nat. Hazards Earth Syst. Sci.

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Abstract.The results of the monitoring of three VLF/LF signals collected in Petropavlovsk station (Kamchatka, Russia) and one VLF signal collected on board of the DEME-TER French satellite are presented. Two periods of the seismic activity occurred in the Japan-Kamchatka area during November-December 2004 and July-September 2005 were investigated and the earthquakes with M≥6.0 in the JapanKamchatka area, located inside one or more of the third Fresnel zones of the three radio paths were considered. The ground data were analysed using residual signal of phase dP or of amplitude dA, defined as the difference between the signal and the average of few quiet days (±5 days) immediately preceding or following the current day. Also the satellite data were processed by a method based on the difference between the real signal and the reference one, but in order to obtain this last signal it was necessary to construct previously a model of the signal distribution over the selected area. The method consists: (a) in averaging all the data available in the considered region over a period characterized by low level seismicity, regardless of the global disturbances, in particular, of the magnetic activity; (b) in computing a polynomial expression for the surface as a function of the longitude and the latitude. The model well describes the real data in condition of their completeness and in absence of magnetic storms or seismic forcing. In the quoted periods of seismic activity clear anomalies both in the ground and in satellite data were revealed. The influence of the geomagnetic activity cannot to be excluded, but the seismic forcing seems more probable.

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Anomalies in VLF radio signals prior the Abruzzo earthquake (<i>M</i>=6.3) on 6 April 2009

Рожной

Solovieva

Molchanov

et al. 2009

Nat. Hazards Earth Syst. Sci.

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Abstract. The VLF/LF radio signals method for studying preseimic activity is applied to the Abruzzo earthquake (M=6.3, 6 April 2009). The data collected by three receivers located in Moscow (Russia), Graz (Austria) and Bari (Italy) at about 3000 km, 1000 km and 500 km from the epicenter were used. The signals received from the Sardinia (20.27 kHz) and the Sicily (45.9 kHz) transmitters, both located in Italy, were compared with those received from the Iceland (37.5 kHz), the Great Britain (19.58 kHz) and the Germany (23.4 kHz) transmitters. The propagation paths of the two Italian transmitters cross the epicentral area (seismic paths) unlike the paths of the other three signals (control paths). Using two different analyses, that are the study of the night-time signal and the research of shifts in the evening terminator times, clear anomalies were revealed 2-8 days before the occurrence of the Abruzzo earthquake in the seismic paths, while no anomalies have been found in the control paths.

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Identification and filtering of uncharacteristic noise in the CMS hadron calorimeter

Chatrchyan¹,

Khachatryan²,

Sirunyan³

et al. 2010

J. Inst.

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Commissioning studies of the CMS hadron calorimeter have identified sporadic uncharacteristic noise and a small number of malfunctioning calorimeter channels. Algorithms have been developed to identify and address these problems in the data. The methods have been tested on cosmic ray muon data, calorimeter noise data, and single beam data collected with CMS in 2008. The noise rejection algorithms can be applied to LHC collision data at the trigger level or in the offline analysis. The application of the algorithms at the trigger level is shown to remove 90% of noise events with fake missing transverse energy above 100 GeV, which is sufficient for the CMS physics trigger operation.

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A composed supervised/unsupervised approach to improve change detection from remote sensing

Castellana

D’Addabbo

Pasquariello

2007

Pattern Recognition Letters

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L. Castellana

Global diagnostics of the ionospheric perturbations related to the seismic activity using the VLF radio signals collected on the DEMETER satellite

Possible seismo-ionosphere perturbations revealed by VLF signals collected on ground and on a satellite

Anomalies in VLF radio signals prior the Abruzzo earthquake (<i>M</i>=6.3) on 6 April 2009

Identification and filtering of uncharacteristic noise in the CMS hadron calorimeter

A composed supervised/unsupervised approach to improve change detection from remote sensing

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L. Castellana

Global diagnostics of the ionospheric perturbations related to the seismic activity using the VLF radio signals collected on the DEMETER satellite

Possible seismo-ionosphere perturbations revealed by VLF signals collected on ground and on a satellite

Anomalies in VLF radio signals prior the Abruzzo earthquake (&lt;i&gt;M&lt;/i&gt;=6.3) on 6 April 2009

Identification and filtering of uncharacteristic noise in the CMS hadron calorimeter

A composed supervised/unsupervised approach to improve change detection from remote sensing

Contact Info

Product

Resources

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Anomalies in VLF radio signals prior the Abruzzo earthquake (<i>M</i>=6.3) on 6 April 2009