José A. Sobrino


Categoría: Profesor e crítico literario
Teléfono: 963543115
Fax: 963543115
Correo electrónico: 
Formulario de contacto
 Currículum

·Miembro del ESAC (Earth Science Advisory Commitee) de la ESA (European Space Agency).
·Miembro del EOEP (Earth Observation Envelope Programme), Science Review Committee of ESA.
·Presidente del Segundo Simposio Internacional ‘Recent Advances in Quantitative Remote Sensing’ RAQRS.

FORMACIÓN
· Licenciado en Física, Universidad de Valencia, 1986.
· Doctor en Física, Universidad de Valencia, 1989.
· Catedrático de Universidad, Universidad de Valencia, 1994.

AREAS DE INTERÉS
· Sensorio remoto termanl.
· Recuperación de temperatura y emisividad.
· Monitorización dinámica de cobertura de la tierra.
· Sinergía entre datos VNIR y TIR.

 Obras realizadas

PUBLICACIONES
Publicaciones internacionales recientes incluidas en el ‘Science Citation Index’:
28. M. Romagurea, J.A. Sobrino y F.-S. Olesen (2006): ‘Surface temperature algorithm evaluation for SEVIRI data: in situ sea measurements and comparison with AVHRR retrievals’, International Journal of Remote Sensing. En prensa.
27. G. Sepulcre-Cantó, P.J. Zarco-Tejada, J.C. Jiménez-Muñoz, J.A. Sobrino, E. de Miguel y F.J. Villalobos (2006): ‘Within-Field Thermal Variability Detection as Function of Water Stress in Olea europaea L. orchard with High-Spatial Remote Sensing Imagery’, Agricultural and Forest Meteorology. En prensa.
26. J. C. Jiménez-Muñoz y J. A. Sobrino (2005): ‘Error sources on the land surface temperature retrieved from thermal infrared single channel remote sensing data’, International Journal of Remote Sensing. En prensa.
25. L. Paolini, F. Grings, J. A. Sobrino, J. C. Jiménez Muñoz y H. Karszenbaum (2005): ‘Radiometric correction effects in Landsat multitemporal/multisensor change detection studies’. International Journal of Remote Sensing, En prensa.
24. Jiménez-Muñoz, J. C., y Sobrino, J. A. (2005): ‘Atmospheric water vapour content retrieval from visible and thermal data in the framework of the DAISEX campaigns’. International Journal of Remote Sensing, 26 (15): 3163-3180.
23. Sobrino, J. A. y Jiménez-Muñoz, J. C. (2005): ‘Land surface temperature retrieval from thermal infrared data: An assessment in the context of the Surface Processes and Ecosystem Changes Through Response Analysis (SPECTRA) mission’. Journal of Geophysical Research, 110(D16103), doi: 10.1029/2004JD005588.
22. M. Gómez, A. Olioso, J. A. Sobrino y F. Jacob (2005): ‘Retrieval of evapotranspiration over the Alpilles test site using POLDER and Thermal Camera data’, Remote Sensing of Environment.
21. J. A. Sobrino, M. Gómez, J.C. Jiménez-Muñoz, A. Olioso y G. Chehbouni (2005): ‘A simple algorithm to estimate evapotranspiration from DAIS data: Application to the DAISEX campaigns’, Journal of Hydrology, Vol. XX, pág. 1-9.
20. J. A. Sobrino y J. C. Jiménez-Muñoz (2005): ‘Land surface temperature retrieval from thermal infrared data: An assessment in the context of the Surface Processes and Ecosystem Changes Through Response Analysis (SPECTRA) mission’, Journal of Geophysical Research.
19. J. A. Sobrino, J. C. Jiménez-Muñoz y W. Verhoef (2005): ‘Canopy directional emissivity: Comparison between models’. Remote Sensing of Environment, 99, 304-314.
18. Sobrino, J. A., Jiménez-Muñoz, J. C., y Paolini, L. (2004): ‘Land surface temperature retrieval from LANDSAT TM 5’, Remote Sensing of Environment, 90: 434-440.
17. Sobrino, J. A., Jiménez-Muñoz, J. C., El-Kharraz, J., Gómez, M., Romaguera, M., y Sòria, G. (2004): ‘Single-channel and two-channel methods for land surface temperature retrieval from DAIS data and its application to the Barrax site’, International Journal of Remote Sensing, 25(1): 215-230.
16. Z.-L. Li, R. Zhang, X. Sun, H. Su, X. Tang, Z. Zhu y J. A. Sobrino (2004): ‘Experimental system for the study of the directional thermal emission of natural surfaces’, International Journal of Remote Sensing 25, nº 1, 195-204.
15. J. A. Sobrino, G. Soria y A. J. Prata (2004): ‘Surface temperature retrieval from Along Track Scanning Radiometer 2 data: Algorithms and validation’, Journal of Geophysical Research.
14. J. Cuenca y J. A. Sobrino (2004): ‘Experimental measurements for studying angular and spectral variation of thermal infrared emissivity’, Applied Optics, Vol. 43.
13. J. A. Sobrino y M. Romaguera (2004): ‘Land surface temperature retrieval from MSG-SEVIRI data’. Remote Sensing of Environment, 92, 247-254.
12. J. A. Sobrino, J. El Kharraz y Z.L Li (2003): ‘Surface Temperature and water vapor retrieval from MODIS Data’, International Journal of Remote Sensing V. 24, nº 24.
11. Jiménez-Muñoz, J. C. y Sobrino, J. A. (2003): ‘A generalized single-channel method for retrieving land surface temperature from remote sensing data’, Journal of Geophysical Research, 108(D22), doi: 10.1029/2003JD003480.
10. Sobrino, J. A., Jiménez-Muñoz, J. C., Labed-Nachbrand, J. y Nerry, F. (2002): ‘Surface Emissivity Retrieval From DAIS Data’, Journal of Geophysical Research, 107 (D23).
9. Sobrino, J. A., Raissouni, N., Jiménez-Muñoz, J. C. y Sòria, G. (2002): ‘A Simplified Method for Estimating the Total Water Vapour Content Over Sea Surfaces Using NOAA-AVHRR Channels 4 and 5’, IEEE Transactions on Geoscience y Remote Sensing, 40(2).
8. H. Oudrari, S. N. Goward, K. P. Czajkowski, S. N, J. A. Sobrino y E. Vermote (2002): ‘Land Surface Temperature estimation from AVHRR Thermal infrared measurements: An assessment for the AVHRR Land Pathfinder II data set’, Remote Sensing of Environment.
7. E. Hurtado y J. A. Sobrino (2001): ‘Daily net radiation estimated from air temperature and NOAA-AVHRR data: a case study of The Iberian Peninsula’, International Journal of remote Sensing, 22, nº 8, 1521-1533.
6. J. A. Sobrino, N. Raissouni y Zhao-Liang Li (2001): ‘A comparative study of Land Surface emissivity retrieval from NOAA data’, Remote Sensing of Environment, 75.
5. J. A. Sobrino y N. Raissouni (2000): ‘Toward Remote Sensing methods for land cover dynamic monitoring. Application to Morocco’, International Journal of remote Sensing.
4. J. A. Sobrino y M. H. El Kharraz (1999): ‘Combining afternoon and morning NOAA satellites for Thermal inertia estimation: 1. Algorithm and its testing with Hydrologic Atmospheric Pilot Experiment- Sahel data’, Journal of Geophysical Research, 104, D8, 9445-9454.
3. J. A. Sobrino y M. H. El Kharraz (1999): ‘Combining afternoon and morning NOAA satellites for Thermal inertia estimation: 2. Methodology and Application’, Journal of Geophysical Research 104, D8, 9455-9466.
2. J. A. Sobrino, N. Raissouni, J. Simarro, F. Nerry y F. Petitcolin (1999): ‘Atmospheric Water vapor content over land surfaces derived from The AVHRR Data. Application to the Iberian Peninsula’, IEEE Transactions and Geoscience and Remote Sensing, 37.
1. J. A. Sobrino y J. Cuenca (1999): ‘Angular variation of thermal infrared emissivity for some natural surfaces from experimental measurements’, Applied Optics, Vol. 38, nº 18, 3931-3936.