Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI

Saoussen Dhib; C. Mannaerts; Zoubeida Bargaoui

doi:10.1007/978-3-319-09300-0_23

Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI

Saoussen Dhib^*, C. Mannaerts, Zoubeida Bargaoui

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

1 Citation (Scopus)

Abstract

The advanced Spinning Enhanced Visible Infra-Red Imager (SEVIRI) radiometer onboard the Meteosat Seconde Generation (MSG) series has a temporal resolution of 15 min. It has the ability to scan the Earth in 12 spectral channels from visible to thermal infrared. The spatial resolution of the SEVIRI instrument is 3 km for 11 of the 12 channels, and 1 km for the High Resolution Visible (HVR) channel.

Original language	English
Title of host publication	Engineering Geology for Society and Territory \
Subtitle of host publication	Climate Change and Engineering Geology
Editors	G. Lollino, A. Manconi, J. Clague, W. Shan, M. Chiarle
Publisher	Springer
Chapter	23
Pages	117-121
Number of pages	5
Volume	1
ISBN (Electronic)	9783319093000
ISBN (Print)	9783319092997
DOIs	https://doi.org/10.1007/978-3-319-09300-0_23
Publication status	Published - 1 Jan 2015

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10.1007/978-3-319-09300-0_23

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Dhib, S., Mannaerts, C., & Bargaoui, Z. (2015). Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI. In G. Lollino, A. Manconi, J. Clague, W. Shan, & M. Chiarle (Eds.), Engineering Geology for Society and Territory \: Climate Change and Engineering Geology (Vol. 1, pp. 117-121). Springer. https://doi.org/10.1007/978-3-319-09300-0_23

Dhib, Saoussen ; Mannaerts, C. ; Bargaoui, Zoubeida. / Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI. Engineering Geology for Society and Territory \: Climate Change and Engineering Geology. editor / G. Lollino ; A. Manconi ; J. Clague ; W. Shan ; M. Chiarle. Vol. 1 Springer, 2015. pp. 117-121

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abstract = "The advanced Spinning Enhanced Visible Infra-Red Imager (SEVIRI) radiometer onboard the Meteosat Seconde Generation (MSG) series has a temporal resolution of 15 min. It has the ability to scan the Earth in 12 spectral channels from visible to thermal infrared. The spatial resolution of the SEVIRI instrument is 3 km for 11 of the 12 channels, and 1 km for the High Resolution Visible (HVR) channel.",

author = "Saoussen Dhib and C. Mannaerts and Zoubeida Bargaoui",

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Dhib, S, Mannaerts, C & Bargaoui, Z 2015, Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI. in G Lollino, A Manconi, J Clague, W Shan & M Chiarle (eds), Engineering Geology for Society and Territory \: Climate Change and Engineering Geology. vol. 1, Springer, pp. 117-121. https://doi.org/10.1007/978-3-319-09300-0_23

Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI. / Dhib, Saoussen; Mannaerts, C.; Bargaoui, Zoubeida.

Engineering Geology for Society and Territory \: Climate Change and Engineering Geology. ed. / G. Lollino; A. Manconi; J. Clague; W. Shan; M. Chiarle. Vol. 1 Springer, 2015. p. 117-121.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Dhib S, Mannaerts C, Bargaoui Z. Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI. In Lollino G, Manconi A, Clague J, Shan W, Chiarle M, editors, Engineering Geology for Society and Territory \: Climate Change and Engineering Geology. Vol. 1. Springer. 2015. p. 117-121 https://doi.org/10.1007/978-3-319-09300-0_23

Improving the MSGMPE accuracy for the northern of Tunisia by the multispectral analysis of the cloud field from MSG SEVERI

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