Searched for: author%3A%22Decae%2C+R.%22
(1 - 7 of 7)
document
TNO Defensie en Veiligheid (author), Robles-Gonzalez, C. (author), Leeuw, G.de (author), Decae, R. (author), Kusmierczyk-Michulec, J.T. (author), Stammes, P. (author)
Aerosol retrieved algorithms for ATSR-2 have been applied over land and water using data from the Indian Ocean Experiment (INDOEX) Intensive Field Phase (IFP) in February and March 1999. The goal was the extension of the ATSR-2 algorithms, developed for application over the U.S. east coast and Europe, to other areas with different types of...
article 2006
document
Court, A.J. (author), Smorenburg, K. (author), Courrèges-Lacoste, G.B. (author), Visser, H. (author), de Leeuw, G. (author), Decae, R. (author), Technisch Physische Dienst TNO - TH TNO Fysisch en Elektronisch Laboratorium (author)
Satellite remote sensing of aerosols is a largely unresolved problem. A dedicated instrument aimed at aerosols would be able to reduce the large uncertainties connected to this kind of remote sensing. TNO is performing a study of a space based instrument for aerosol measurements, together with the study of up-to-date aerosol transport modeling...
article 2004
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Technisch Physische Dienst TNO - TH TNO Fysisch en Elektronisch Laboratorium (author), Smorenburg, K. (author), Bazalgette Courrèges-Lacoste, G.A.F. (author), Decae, R. (author), Court, A.J. (author), de Leeuw, G. (author), Visser, H. (author)
At present there is an increasing interest in remote sensing of aerosols from space because of the large impact of aerosols on climate, earth observation and health. TNO has performed a study aimed at improving aerosol characterisation using a space based instrument and state-of-the-art aerosol retrieval algorithms, based on requirements for up...
conference paper 2004
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TNO Fysisch en Elektronisch Laboratorium TNO Industrie (author), Decae, R. (author), Bazalgette Courrèges-Lacoste, G.A.F. (author), de Leeuw, G. (author)
DARE (Dedicated Aerosol Retrieval Experiment) is a study to design an instrument for accurate remote sensing of aerosol properties from space. DARE combines useful properties of several existing instruments like TOMS, GOME, ATSR and POLDER. It has a large wavelength range, 330 to 1000 nm, to discriminate between aerosol types. The wide swath...
conference paper 2004
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Kusmierczyk-Michulec, J. (author), Roblez Gonzalez, C. (author), Decae, R. (author), de Leeuw, G. (author), TNO Fysisch en Elektronisch Laboratorium (author)
Algorithms for the retrieval of aerosol properties over land and over sea have been developed by the TNO Physics and Electronics Laboratory (TNO-FEL) for several instruments, such as AVHRR (Veefkind et al., 1998a), GOME, ATSR-2 (Veelkind et al. 1998a, b; 1999) and OMI (Torres et al. 2002). OMI will be launched in 2004. An algorithm for SCIAMACHY...
conference paper 2003
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TNO Fysisch en Elektronisch Laboratorium (author), de Leeuw, G. (author), Robles Gonzalez, C. (author), Kusmierczyk-Michulec, J. (author), Decae, R. (author), Veefkind, J.P. (author)
To retrieve aerosol properties from the radiance measured at the top of the atmosphere in clear sky conditions, the contributions of the surface and the various atmospheric constituents need to be separated. This is easiest done over dark surfaces, i.e. with a negligible reflectance that can relatively easily be accounted for. This principle has...
conference paper 2002
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Robles-Gonzalez, C. (author), Leeuw, G.de (author), Decae, R. (author), Kusmierczyk-Michulec, J. (author)
A new algorithm to retrieve aerosol optical depth with Along Track Scanning Radiometer (ATSR) data was presented. The generalization of algorithms for application over some areas is reported. An automated cloud detection scheme was included in the algorithms in order to generalize them. Inclusion of other aerosol types was also carried out.
conference paper 2002
Searched for: author%3A%22Decae%2C+R.%22
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