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Exploitation of spectral direct UV irradiance measurements

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Original languageGerman
Pages (from-to)19-25
Number of pages7
JournalMETROLOGIA
Volume46
Issue number1
Publication statusPublished - 2008

Abstract

Because of both scattering and absorption, ozone and aerosols lead to an attenuation in the surface UV irradiance. These factors can be efficiently retrieved from ground-based measurements of the spectral direct UV irradiance performed by using spectroradiometer systems. In this paper, we applied a Monte Carlo based exploitation technique of spectral direct UV irradiance measurements, which allowed us to obtain a bound within which the retrieved parameter (either the ozone column or an aerosol property) is expected to lie with a relatively high probability. The applied exploitation technique required sequentially comparing the ground-based measurements with a large number of spectra, each of them calculated by a radiative transfer model with randomly generated values of input parameters (i.e. the ozone column and aerosol properties). The dispersion of the generated values that led to acceptable matches between the measured and calculated spectra allowed us to compute both the estimates and the uncertainties of the retrieved parameters. The applied exploitation technique enabled us to describe the uncertainty propagation through the retrieval process and to assess the influence of the involved uncertainty sources. Methodological details are provided.

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Exploitation of spectral direct UV irradiance measurements. / Cordero, Raul R; Seckmeyer, Gunther; Pissulla, Darius et al.
In: METROLOGIA, Vol. 46, No. 1, 2008, p. 19-25.

Research output: Contribution to journalArticleResearchpeer review

Cordero RR, Seckmeyer G, Pissulla D, Labbe F. Exploitation of spectral direct UV irradiance measurements. METROLOGIA. 2008;46(1):19-25. doi: 10.1088/0026-1394/46/1/003
Cordero, Raul R ; Seckmeyer, Gunther ; Pissulla, Darius et al. / Exploitation of spectral direct UV irradiance measurements. In: METROLOGIA. 2008 ; Vol. 46, No. 1. pp. 19-25.
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TY - JOUR

T1 - Exploitation of spectral direct UV irradiance measurements

AU - Cordero, Raul R

AU - Seckmeyer, Gunther

AU - Pissulla, Darius

AU - Labbe, Fernando

PY - 2008

Y1 - 2008

N2 - Because of both scattering and absorption, ozone and aerosols lead to an attenuation in the surface UV irradiance. These factors can be efficiently retrieved from ground-based measurements of the spectral direct UV irradiance performed by using spectroradiometer systems. In this paper, we applied a Monte Carlo based exploitation technique of spectral direct UV irradiance measurements, which allowed us to obtain a bound within which the retrieved parameter (either the ozone column or an aerosol property) is expected to lie with a relatively high probability. The applied exploitation technique required sequentially comparing the ground-based measurements with a large number of spectra, each of them calculated by a radiative transfer model with randomly generated values of input parameters (i.e. the ozone column and aerosol properties). The dispersion of the generated values that led to acceptable matches between the measured and calculated spectra allowed us to compute both the estimates and the uncertainties of the retrieved parameters. The applied exploitation technique enabled us to describe the uncertainty propagation through the retrieval process and to assess the influence of the involved uncertainty sources. Methodological details are provided.

AB - Because of both scattering and absorption, ozone and aerosols lead to an attenuation in the surface UV irradiance. These factors can be efficiently retrieved from ground-based measurements of the spectral direct UV irradiance performed by using spectroradiometer systems. In this paper, we applied a Monte Carlo based exploitation technique of spectral direct UV irradiance measurements, which allowed us to obtain a bound within which the retrieved parameter (either the ozone column or an aerosol property) is expected to lie with a relatively high probability. The applied exploitation technique required sequentially comparing the ground-based measurements with a large number of spectra, each of them calculated by a radiative transfer model with randomly generated values of input parameters (i.e. the ozone column and aerosol properties). The dispersion of the generated values that led to acceptable matches between the measured and calculated spectra allowed us to compute both the estimates and the uncertainties of the retrieved parameters. The applied exploitation technique enabled us to describe the uncertainty propagation through the retrieval process and to assess the influence of the involved uncertainty sources. Methodological details are provided.

U2 - 10.1088/0026-1394/46/1/003

DO - 10.1088/0026-1394/46/1/003

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JO - METROLOGIA

JF - METROLOGIA

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