Geoscience Reference
In-Depth Information
Table 1.4 (continued)
RIMS version
RIMS functions
References
Combined RIMS-TC as a
result of the accomplishment
of the ISTC Project No. 3827
Detection of the tropical
cyclone (TC) onset in its
earlier phase based on the
meteorological information
delivered by buoy stations of
the TAO/TRITON/PIRATA/
RAMA system
Bondur et al. (2009),
Soldatov (2009a), Soldatov
et al. (2010a), Sukov et al.
(2008a)
Combined RIMS-OS in the
frame of the collaboration
between the Kotelnikov
Institute of Radioengineering
and Electronics of RAS with
the Ice Laboratory of
Hokkaido University
(Mombetsu, Hokkaido,
Japan)
Calculation of the
biocomplexity distribution
for total area of sea by using
the simulation model of the
Okhotsk Sea based on the
existing database and the
fragmentary information
deduced from observations
Aota et al. (1991a, b, 1992,
1993), Krapivin and
Mkrtchyan (2006a, 2007c)
Combined RIMS-B in the
frame of the national
Bulgarian Project:
Development in Bulgaria of
Geo-Information Monitoring
System (GIMS), for
emergency mapping and risk
assessment of the areas with
water seepage through
levees, of the zones with
dangerously high
groundwater level and other
hydrological, ecological and
agricultural phenomena
Development of a powerful
centralized information and
management service in
Bulgaria using the GIMS
technology. It has been
achieved by developing and
adapting to the real Bulgarian
environments of the IMTEM
technology for the land
surface and water areas and
using remote sensing tools
Krapivin and Shutko
(2012), Shutko et al.
(2010), Verba et al. (2013),
Nitu et al. (2013)
of GIMS is possible in the context of cooperation between specialists from various
fields of science and engineering.
Table 1.5 shows the stages for the RIMS-B synthesis. The implementation of
these stages allowed the demonstrational
flights of the aircraft laboratory Miramap
(The Netherlands) equipped with advanced radiometric system (Shutko et al. 2010).
A comparison of in-situ, remote sensing and modeling results leads to the following
conclusions:
fl
￿
for the practical use of the GIMS technology in the Bulgarian conditions it is
necessary to create the archive of characteristics for soil-plant formations that
re
ect the spatial distributions of soil types and their features, as well as the
biometrical and production characteristics of vegetation cover; and
fl
it is necessary to implement studies and to establish timely warnings about the
quasi-stationary character of the climate and geophysical parameters both in
separate regions and on a national basis.
￿
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