Abstract
The high temporal resolution of data acquisition
by geostationary satellites and their capability to resolve the
diurnal cycle allows for the retrieval of a valuable source of
information about geophysical parameters. In this paper, we
implement a Kalman filter approach to apply temporal constraints
on the retrieval of surface emissivity and temperature
from radiance measurements made from geostationary platforms.
Although we consider a case study in which we apply
a strictly temporal constraint alone, the methodology will
be presented in its general four-dimensional, i.e., space-time,
setting. The case study we consider is the retrieval of emissivity
and surface temperature from SEVIRI (Spinning Enhanced
Visible and Infrared Imager) observations over a target
area encompassing the Iberian Peninsula and northwestern
Africa. The retrievals are then compared with in situ data
and other similar satellite products. Our findings show that
the Kalman filter strategy can simultaneously retrieve surface
emissivity and temperature with an accuracy of ±0.005
and ±0.2 K, respectively.
Anno
2013
Autori IAC
Tipo pubblicazione
Altri Autori
Masiello, G., Serio, C., De Feis, I., Amoroso, M., Venafra, S., Trigo, I. F., and Watts, P
Editore
Copernicus Publications
Rivista
Atmospheric measurement techniques (Print)