From Operational Ceilometer Network to Operational Lidar Network

From Operational Ceilometer Network to Operational Lidar Network

During the eruption of Eyjafjallajökull in 2010, the Met Office ceilometers (Laser Cloud Based Recorders - LCBR) provided reasonable information about volcanic ash plumes over the United Kingdom [1]. This capability triggered the development of an operational system to provide quick looks of the ran...

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Main Authors: Adam Mariana, Turp Myles, Horseman Andrew, Ordóñez Carlos, Buxmann Joelle, Sugier Jacqueline
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/201611927007
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spelling doaj-4f83490786bb4086850a579ccf44fac32021-08-02T14:42:28ZengEDP SciencesEPJ Web of Conferences2100-014X2016-01-011192700710.1051/epjconf/201611927007epjconf_ilrc2016_27007From Operational Ceilometer Network to Operational Lidar NetworkAdam Mariana0Turp Myles1Horseman Andrew2Ordóñez Carlos3Buxmann Joelle4Sugier Jacqueline5Observations branch, Met OfficeObservations branch, Met OfficeObservations branch, Met OfficeWeather Science branch, Met OfficeObservations branch, Met OfficeObservations branch, Met OfficeDuring the eruption of Eyjafjallajökull in 2010, the Met Office ceilometers (Laser Cloud Based Recorders - LCBR) provided reasonable information about volcanic ash plumes over the United Kingdom [1]. This capability triggered the development of an operational system to provide quick looks of the range corrected signals (RCS) in near-real-time (NRT). Moreover, the Met Office acquired eleven Jenoptik ceilometers to supplement the operational ceilometer network. The combined network became operational in 2012 and currently comprises a total of 43 ceilometers reporting backscatter profiles in NRT. In 2013, Civil Aviation Authority (CAA) and the Department for transport (DfT) sponsored the acquisition of 9 fixed lidars and one mobile unit (each accompanied by a sunphotometer), to further improve the quantitative monitoring of volcanic ash. The current status of both ceilometer and lidar/sun-photometer networks is discussed and further developments are proposed.http://dx.doi.org/10.1051/epjconf/201611927007
collection DOAJ
language English
format Article
sources DOAJ
author Adam Mariana
Turp Myles
Horseman Andrew
Ordóñez Carlos
Buxmann Joelle
Sugier Jacqueline
spellingShingle Adam Mariana
Turp Myles
Horseman Andrew
Ordóñez Carlos
Buxmann Joelle
Sugier Jacqueline
From Operational Ceilometer Network to Operational Lidar Network
EPJ Web of Conferences
author_facet Adam Mariana
Turp Myles
Horseman Andrew
Ordóñez Carlos
Buxmann Joelle
Sugier Jacqueline
author_sort Adam Mariana
title From Operational Ceilometer Network to Operational Lidar Network
title_short From Operational Ceilometer Network to Operational Lidar Network
title_full From Operational Ceilometer Network to Operational Lidar Network
title_fullStr From Operational Ceilometer Network to Operational Lidar Network
title_full_unstemmed From Operational Ceilometer Network to Operational Lidar Network
title_sort from operational ceilometer network to operational lidar network
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2016-01-01
description During the eruption of Eyjafjallajökull in 2010, the Met Office ceilometers (Laser Cloud Based Recorders - LCBR) provided reasonable information about volcanic ash plumes over the United Kingdom [1]. This capability triggered the development of an operational system to provide quick looks of the range corrected signals (RCS) in near-real-time (NRT). Moreover, the Met Office acquired eleven Jenoptik ceilometers to supplement the operational ceilometer network. The combined network became operational in 2012 and currently comprises a total of 43 ceilometers reporting backscatter profiles in NRT. In 2013, Civil Aviation Authority (CAA) and the Department for transport (DfT) sponsored the acquisition of 9 fixed lidars and one mobile unit (each accompanied by a sunphotometer), to further improve the quantitative monitoring of volcanic ash. The current status of both ceilometer and lidar/sun-photometer networks is discussed and further developments are proposed.
url http://dx.doi.org/10.1051/epjconf/201611927007
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AT horsemanandrew fromoperationalceilometernetworktooperationallidarnetwork
AT ordonezcarlos fromoperationalceilometernetworktooperationallidarnetwork
AT buxmannjoelle fromoperationalceilometernetworktooperationallidarnetwork
AT sugierjacqueline fromoperationalceilometernetworktooperationallidarnetwork
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