A.S. Bugaev – Academician of RAS, Deputy Director , IRE of V.A. Kotelnikov of the RAS

E-mail: abugaev@cplire.ru

R.P. Bystrov – Dr.Sc. (Eng.), Professor, Leading Research Scientist, IRE of V.A. Kotelnikov of the RAS E-mail: rudolf@cplire.ru

V.N. Pozhidayev – Dr.Sc. (Phys.-Math.), Professor, Chief Research Scientist, IRE of V.A. Kotelnikov of the RAS

E-mail: vicnic@cplire.ru

It is given materials of opportunities of application of superbroadband and noise-type signals in radar and the infocommunication systems of gigahertz (GHz) range of radio waves. Key parameters of such systems for the purpose of increase of accuracy of determination of coordinates of range and resolution of RLS and possibility of communication systems of a radio communication with mobile land and satellite subscribers are shown. The arising problems are given to development of new superbroadband ranges of radio waves in the directions of application radio engineering systems in increase of their opportunities on prospect by use in such systems of the applied radio frequency ranges towards terahertz (TGTs) waves. The power assessment of the RLS equipment on the power of the transmitter demanded for ensuring range of action in the standard atmosphere (absolute humidity – 7,5 g/m³, pressure of 760 mm hg, temperature 293 K) and rains of average intensity is carried out (~ 5 mm/h). The conclusion locates that one of the perspective directions of application of RLM of detection is also their use as small locational modules on LA. Use of such radar modules on LA is supposed perspective for rather effective detection of land objects in remote areas when use of optical-electronic and television means is limited or it is impossible.

1. Chernihyj M.A., Korablin V.I. Vozdushnaya navigaciya: Ucheb. dlya letnihkh uchilith i shkol grazhdanskoyj aviacii. Izd. 3-e, pererab. i dop. M.: Transport. 1983.
2. Kulemin G.P., Razskazovskiyj V.B. Rasseyanie millimetrovihkh radiovoln poverkhnostjyu zemli pod malihmi uglami. Kiev: Naukova Dumka. 1987.
3. Bihstrov R.P. Radiolokacionnihe sistemih obnaruzheniya nazemnihkh objhektov v korotkoyj chasti millimetrovogo diapazona radiovoln. V 2-kh tomakh. T. 1. M.: Tekhnologiya. 2002.
4. Bihstrov R.P., Merkin A.A., Sokolov A.V. Parametrih radiolokacionnihkh sistem obnaruzheniya dvizhuthikhsya i nepodvizhnihkh objhektov // Ehlektromagnitnihe volnih i ehlektronnihe sistemih. 1997. T. 2. № 1. S. 47–53.
5. Bihstrov R.P., Novikov S.S., Sokolov A.V. Passivnihe radiolokacionnihe sistemih skrihtnogo obnaruzheniya nazemnihkh objhektov // Ehlektromagnitnihe volnih i ehlektronnihe sistemih. 1996. T. 1. № 1. S. 64–71.
6. Kolosov M.A., Sokolov A.V. III Vsesoyuzn. shkola-simpozium po rasprostraneniyu millimetrovihkh i submillimetrovihkh voln v atmosfere. M.: IREh AN SSSR. 1983. S. 3–24.
7. Trebovaniya «Norm tekhnologicheskogo proektirovaniya aehroportov». VNTP 1-80/MGA. 1981.
8. Materialy dokl. nauch.-tekhnich. konf. po millimetrovoyj tekhnike. Ljvov: LNIRTI. 1986.
9. Bihstrov R.P., Potapov A.A., Sokolov A.V., Fedorova L.V., Chekaneov R.N. Problemih rasprostraneniya i primeneniya millimetrovihkh radiovoln v radiolokacii // Zarubezhnaya radioehlektronika. 1997. № 1. S. 4–20.
10. Evtikheev N.N., Zasovin Eh.A., Mirovickiyj D.I., Prozorovskiyj Yu.S. Bortovoe radioehlektronnoe i optoehlektronnoe oborudovanie sovremennihkh i perspektivnihkh letateljnihkh apparatov: Ucheb. posobie. M.: MIREhA. 1994.
11. Akinshin N.S., Bihstrov R.P., Petrov A.V., Sadihkov R.R. Radiolokacionnihe sistemih obnaruzheniya nazemnihkh objhektov v millimetrovom diapazone radiovoln na letateljnihkh apparatakh // Nauchnihyj vestnik MGTU GA. Ser. Radiofizika i radiotekhnika. 2000. № 24.  S. 94–111.
12. Dudnik P.I., Cheresov Yu.I. Aviacionnihe radioehlektronnihe ustroyjstva: Ucheb. posobie. M.: VVIA im. N.E.Zhukovskogo. 1986.
13. Spravochnik po radiolokacii / Pod red. M. Skolnika. Njyu-Yjork. 1970 / Per. s angl. V 4-kh tomakh / Pod obth. red. K.N. Trofimova. T. 4. Radiolokacionnihe stancii i sistemih. M.: Sov. radio. 1978.
14. Rekomendacii MSEh – R P.676-3.Oslablenie signala v atmosfernihkh gazakh.
15. Rekomendacii MSEh – R P.840-2.Oslablenie signala v oblakakh i tumanakh.
16. Rekomendacii MSEh – R P.8838. Modelj pogonnogo oslableniya v dozhde, ispoljzuemoe v metodakh prognozirovaniya.