Head: Sergey A. Masalov
            Professor, D.Sc., Awardee of two National Prizes of Ukraine
            Tel. (+38-057)-720 34 34
            E-mail: masalov@ire.kharkov.ua

 

Research on:

 

Improving the existing techniques and developing new ones for detection and observation of the hidden objects located in media with hard conditions of signal propagation.

 

Video-pulse radar methods and equipment:

  • analysis of radiation, propagation and diffraction of non-stationary electromagnetic waves in atmosphere, ground, and water,

  • development of new components of the video- pulse radar, design of radar systems for detection of the subsurface drainage systems, pipelines, tunnels, water and mineral resources,

  • development of the methods and devices for processing and visualizing the results of subsurface sounding.

Technical vision and coherent radio systems:

  • analysis of the local scattering of microwaves and mm-waves by small-size objects in absorbing media,

  • design of different problem-oriented super-near-zone radars for remote and contact-free measurements of parameters of technological and biophysical processes, including vibro-diagnostics of turbines of power-plants, contact-free control of the heart-beating, remote detection of people under ruins, all-weather security systems,

  • development of the methods and tools for obtaining and processing the information on the hidden objects, aimed at the design of the technical-vision systems.


             Go on reading "Portable Radar-Set for Rescuers"

 

Radiometric methods and tools for remote sensing:

  • development of the radiometric methods of remote sensing of the Earth and man-made objects, design of the microwave systems of radiometric monitoring of the sea and land surface,

  • development of the methods and tools of processing the radiometric images,

  • development of the methods and tools of metrological certification of the microwave radiometric remote sensing systems.

Fluctuation phenomena in the vacuum electronic devices of the mm waveband:

  • investigation of the structure of electron beams formed by electron guns with a flat electrode geometry, analysis of the inherent noise spectra of the vacuum electronic devices of the mm waveband,

  • improvement of the diagnostics of parameters of thin electron beams with high values of the current density and specific power.

 

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