Scientific-educational complex FUNDAMENTAL SCIENCES Bauman MSTU - Mathematical Modeling of Nonlinear Dynamical Systems Laboratory

Gravitational Wave Research Laboratory

   The laboratory is specializing in theoretical and experimental study into establishing the gravitational wave source and receiver. We develop new methods for registration of gravitational radiation and perform mathematical modeling of multiple-beam Fabry-Perot, Mach-Zehnder, Michelson interferometers with mirrors on free weights.
   The major areas of research include gravitation and cosmology, relativistic electrodynamics, multiple-beam interferometry, spectroscopy, nanotechnology, cryogenic and vacuum technology.
   The laboratory is a co-organizer of the International Meeting «Physical Interpretations of Relativity Theory»

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Laboratory of Moving Media Electrodynamics

   The laboratory has centered on theoretical and experimental study of non-linear processes of interaction between electromagnetic radiation and moving media and its connection to the reason, which gives rise to anisotropy of relict microwave radiation. The connection can appear in some experiments of optics of moving media which can change orientation in 3D space.
   Investigation results in the field of moving media electrodynamics are presented. The results are connected with problems of interferometric detection of gravitational waves, first attempts of optical detection of anisotropy for space-time continuum and up to the idea of creating a time machine in the anisotropic space.
   The laboratory is the organizer of the International Meeting «Physical Interpretations of Relativity Theory»

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Remote Sensing Laboratory

   The Remote Sensing Laboratory was established in 1981. The main focus of its work was the research in the field of receiving microwave images for various objects on a background of the surface with the help of mm wave radiometers.
   Some years ago the laboratory began a series of studies on applying a subsurface radar in recording the images of objects located at the shallow depth in building constructions and other opaque media. As a result of the research, the method of continuous wave multi-frequency sensing for the condensed medium was developed.
   On the basis of the developed method we designed a holographic subsurface radar RASCAN and put it into production. It is intended for sensing the building designs with high resolution. A group of the laboratory researchers, who developed the RASCAN radar, are Russian Federation Government prizewinners in the field of science and technology. The RASCAN radar has found its place in the market of Russia and abroad.

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Topology and Dynamics Laboratory

The laboratory conducts research encompassing work in abstract mathematics, theory of knots and theory of representations, algebraic structures in low-dimensional topology, vector and tensor analysis with their application to geometry, mechanics and physics.

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Mathematical Modeling of Nonlinear Dynamical Systems Laboratory

Dr. Sergey Ivashov

Scientific adviser
corresponding member of RAS, Alexandr Krischenko

The Mathematical Modeling of Nonlinear Dynamical Systems Laboratory was established in 2014

Major fields of research:

- localization of invariant compacts of continuous and discrete dynamical systems, chaotic dynamics;

- research of continuous and discrete nonlinear dynamical systems and management processes based on algebraic and differential-geometric methods and designing of control algorithms for them

- stability research, construction of attraction regions and definition of Lyapunov functions for nonlinear systems;

- investigation of nonminimal phase systems, mathematical modeling of control processes of nonlinear systems;

- geometry of delay systems, systems of integro-differential equations and another type of systems including boundary-differential form;

- calculation of symmetry, integrable symmetries, laws of conservation, dynamical control systems and transormation of such systems and using them in applied research.

- inverse differential operator;

- problem of flatness of dynamical control systems, delay systems and distributed parameters systems;

- the task of wheeled robots yaw;

- designing of advanced spatial maneuvers for aircrafts;

- modeling of laboratory robot`s work using vision systems;

- modeling of spacecraft rotation around its centre of mass;

- modelling of wheeled robot`s behavior under uncertainty;

Most important results achieved by the laboratory staff:

- conditions of asymptotic stability and asymptotic stability in general have been proved in terms of invariant compacts and positively invariant multiplicities;

- trajectories behavior of autonomous and non-autonomous systems of differential equations outside localized multiplicities related to functions have been described;

- functional localization method of invariant compact multiplicities has been extended to families of discrete dynamical systems;

- plotting method of Lyapunov functions for proving the asymptotic stability equilibrium of dynamical systems has been designed;

- functional localization method of invariant compact multiplicities has been extended to differential inclusions

- localization problem of robustly controlled invariant compact multiplicities continuous and discrete dynamical systems with perturbations has been solved.

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