CYTUVA

GIR - Atmospheric Optics Group (GOA-UVA)

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Contact Information

Ángel Máximo de Frutos Barajas
Campus Miguel Delibes, Paseo Belén, 7
Valladolid, Valladolid (47011) - Facultad de Ciencias
Send email
983423270
983423013
http://goa.uva.es/

Basic Information

UniversityUniversidad de Valladolid
Center
DepartmentTheoretical, Atomic and Optical Physics
Investigation GroupAtmospheric Optics Group (GOA-UVa)

Description

OBJECTIVES

Our research is, in a very general way, about the optics of the atmosphere. More specifically, about what is related to our three lines of research:

Measurement and modeling of solar radiation
Determination and analysis of atmospheric components. Aerosol study
Spectrometry and hyperspectral remote sensing: atmospheric and agronomic applications

Our objectives are the following:

The development and development of instrumentation and optical measurement techniques in the field of spectroradiometry
The measure of solar irradiations and sky radiations in the UV, visible and IR range
The development and validation of models, spectral and broadband, radiative transfer (MTR) in the atmosphere
The development of methodologies for the determination of ozone and water vapor in the atmosphere. Analysis of developments and trends
The study of atmospheric aerosols. Establishment of its climatology
Measurement, determination and monitoring of aerosol optical thickness and turbidity parameters
Determination and characterization of the microphysical and optical properties of atmospheric aerosols using inversion and in situ methods
The classification of aerosols in specific study areas: Establishment of local climatologies
The measure of the spectral reflectance of the cover of different crops, soils, etc. Validation of radiative transfer models (MTR) within the culture
The determination of physiological parameters of the plant (chlorophyll content, water content, dry matter, etc.) and agronomic parameters (LAI, LAD, etc.) by applying MTR at the leaf level and applying inversion methods of MTRs to the reflectance of the vegetal cover
Determination of the optical thickness of aerosols and other parameters using satellite images from the evaluation of the contribution of the atmosphere to the signal measured by the radiometric sensors on board satellite: atmospheric corrections
The determination of agronomic and biophysical parameters using remote sensing images from spectral and hyperspectral sensors

Other information

Number of researchers:

Technological Line(s):

- Experimental sciences

Development status:

In research and development phase

Differentiation in the market:

Quality

Applicability of technology:

Yes

UNESCO Code:

2103 - Optical astronomy

Other members:

VICTORIA EUGENIA CACHORRO REVILLA
ABEL CALLE MONTES
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DAVID MATEOS VILLAN
ANA MARÍA PEREZ BURGOS
CARLOS TOLEDANO OLMEDA

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