THE FEATURES OF PROCESSING OF RADIO IMAGES

The analysis of the problems encountered when processing images is given. The role of fractals in the consideration of a complex of radar signals is stressed.

1. Preobrazhensky A.P., Choporov O.N. Forecasting Algorithms radar characteristics of objects during restoration radar images / control systems and information Technology. 2004. No. 5 (17). S. 85-87.

2. Kosilov A.T., Preobrazhensky A.P. Recovery radar images of objects using methods Radio Holography / Bulletin of the Voronezh State technical university. 2005. T. 1. No. 8. P. 79-81.

3. Preobrazhensky A.P., Khukhryansky Yu.P. Building radar images of objects / Bulletin of Voronezh State Technical University. 2005. T. 1. No. 8. S. 20-23.

4. Lvovich Ya.E., Lvovich I.Ya., Preobrazhensky A.P. Problem solving estimates of the scattering characteristics of electromagnetic waves on diffraction structures during their design / Bulletin Voronezh Institute of High Technologies. 2010. No. 6. S. 255-256.

5. Golovinov S.O., Mironchenko S.G., Schepilov E.V., Preobrazhensky A.P. Digital signal processing / Bulletin of the Voronezh Institute high tech. 2009. No. 4. P. 64.

6. Kosilov A.T., Preobrazhensky A.P. Calculation Methods radar characteristics of objects / Bulletin of Voronezh State Technical University. 2005. T. 1. No. 8. S. 68-71.

7. Preobrazhensky A.P., Yurov R.P. Performance Calculation Subsystem electromagnetic waves of elementary reflectors / Bulletin Voronezh State Technical University. 2006.V. 2. No. 3. S. 76-77.

8. Buldygin EM Using the method of integral equations for method for calculating the scattering characteristics of objects / Bulletin of Voronezh Institute of High Technologies. 2014. No. 12. S. 98-101.

9. Blokhina T.V., E. Ruzhitsky. Electromagnetic scattering study waves at the facility subject to interference / Bulletin of the Voronezh Institute high tech. 2014. No. 12. P. 47-50.

10. Blokhina T.V., David Anderson. Feature Prediction electromagnetic wave scattering for a tetrahedron / Bulletin Voronezh Institute of High Technologies. 2014. No 12. P. 43-46

11. Blokhina TV, Abbas Jasem Hussey parameters of objects based on a calculation-experimental approach / Bulletin of the Voronezh Institute of High Technologies. 2014. No 12. S. 39-42.

12. Pronskikh N.I. Properties of the finite difference method in electrodynamic problems / Bulletin of the Voronezh Institute high tech. 2014. No 12. P. 28-31

13. Šperka, M., Drahoš, P .: Practical Library for Facial Animation. In: Proceedings of the Ninth International Symposium Intelligen Systems, Moskva. 2010.S. 118-123.

14. Šperka, M., Kapec, P .: Visual Information Discovery in Large Data Sets. In: Proceedings of the Ninth International Symposium Intelligen Systems, Moskva. 2010.S. 123 - 128.

15. Morgunov V.S. Modern propagation calculation methods indoor radio signals / Bulletin of the Voronezh Institute high tech. 2014. No 12. P. 136-139

16. Zhulyabin D.Yu. Evaluation and suppression of impulse noise in OFDM / Bulletin of the Voronezh Institute of High Technologies. 2014. No 12. S. 73-80.

17. Preobrazhensky A.P., Yaroslavtsev N.P. Modern radar systems for measuring radar characteristics / Bulletin of the Voronezh State Technical University. 2005. T. 1. No. 8. S. 29-32.

18. Chutchenko Yu.E., Preobrazhensky A.P. Opportunity research image quality improvement / Territory of science. 2007. No 3. S. 364-369.

19. Preobrazhensky A.P. Analysis Modeling and Algorithmization diffraction structures in CAD radar antennas / Voronezh, Scientific book, 2007, 248 p.

20. Preobrazhensky A.P., Khukhryansky Yu.P. Approximation scattering characteristics of electromagnetic waves of elements included in the composition of complex shapes / Bulletin of Voronezh State Technical University. 2005. T. 1. No. 8. S. 15-16.

21. Preobrazhensky A.P., Yurov R.P. CAD modern electronic devices and systems / Bulletin of Voronezh State Technical University. 2006. T. 2. No. 3. S. 35-37.

22. Lvovich I.Ya., Preobrazhensky A.P., Yurov R.P., Choporov O.N. Software package for automated analysis scattering characteristics of objects using mathematical models / Control systems and information technology. 2006. No. 2 (24). S. 96-98.

23. Lvovich I.Ya., Preobrazhensky A.P. Development of information and CAD software diffraction structures and radar antennas / Bulletin of the Voronezh State technical university. 2006.Vol. 2. No. 12. P. 63-68.

24. Lvovich I.Ya., Preobrazhensky A.P. Development of construction principles CAD of diffraction structures and radar antennas / Bulletin Voronezh State Technical University. 2006.V. 2. No. 12. S. 125-127.

25. Preobrazhensky A.P. The study of the possibility of determining the form object in the neighborhood of the restoration of local reflectors on surfaces of objects according to their backscatter diagrams / Telecommunications. 2003. No. 4. P. 29-32.

26. Potapov A.A. Fractals in radiophysics and radiolocation.- M .: Logos, 2002.- 664 p.

27. Zelkin E.T., Petrova R.A. Lens antennas. M .: Sov. Radio, 1974.279 p.

28. Preobrazhensky A.P., Choporov O.N. Forecasting Technique the radar characteristics of objects in the wavelength range using the results of measuring the scattering characteristics at discrete frequencies / Control systems and information technologies. 2004. No. 2 (14). S. 98-101.

29. Preobrazhensky A.P. Radar forecasting characteristics of objects in the wavelength range using discrete scatter measurement results frequencies / Telecommunications. 2004. No. 5. S. 32-35.

30. Preobrazhensky A.P. Radar forecasting characteristics of objects with radar absorbing coatings in wavelength range / Telecommunications. 2003. No. 4. P. 21-24.

31. Gavrik Yu. A. Construction of radio images of space objects from narrowband radar data: Dis. ... cand. Phys.-Math. sciences Moscow, 2005, 148 p.