Head - Prof. V.F. Krapivin,
e-mail: [email protected]; [email protected]
1. Informational technologies in
the remote monitoring of environment
- mathematical modeling of the
ecological processes and natural systems;
- mathematical modeling in
studying the environment pollution processes;
- development of mathematical
methods and software for geoinformational monitoring systems;
- estimation of the environment
parameters on the basis of radiophysical monitoring;
- synthesis of ecological
monitoring systems;
- modeling of global environment
changes;
- development of a new
technologies for the data processing;
- working out the simulation
models for identification of environment pollution sources;
- study of the human activity
and environment changes by computer simulation;
- development of the technology
of environmental control in its application to water, air, and land
pollution problems;
- algorithms for the space-time
interpolation of satellite data;
- modernize the GIS-technology
to the GIMS-technology;
- instruction of the students
and post-graduate students;
- reading the lectures on the
ecoinformatics problems.
2. Theory-games models in the
radiophysics
- signal recognition under the
unremoval information uncertainty;
- constructive criteria for the
realization of statistical decisions
3. Decision making procedures
under informational uncertainty
- signal processing when the
volume of experimental data is restricted;
- decision making in the
multi-channel systems at real time;
- development of sequential
analysis
4. The signals coding and
decoding
Optimal processing (in the
sense of V.A. Kotelnikov) and analogous methods of the reception "as
a whole" of the coded phase-manipulated signals in the spaces with
the absolute measure are studied. The procedures of code-detection for
above signals are modified when there are analogous detection of the
contributions of binary codes multiplicative groups and the solution of
over-definition systems multiplicative equations with turbided
right-hand part.
The investigations are based on
the specific characteristics of multipilicative codes, space with
absolute measure, and coded phase-manipulated sendings.