Journal Science Intensive Technologies №5 for 2022 year
The possibility of specifying the coordinates of detected objects with multimode propagation of radio waves

S.Yu. Krasavin1, A.A. Sobolev2

1,2JSC «DRSRI» (Moscow, Russia)
 

7-15
Synthesis of the UWB receiver and ROC estimation for small low flying objects in the earth lower atmosphere

А.V. Мoroz1, V.P. Savchenko2

1–3 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
 

16-24
Passive over-the-horizon HF radiolocation using chirp ionosondes of different configurations for detecting and positioning ionospheric irregularities

V.P. Uryadov1, G.G. Vertogradov2, F.I. Vybornov3

1,3 Research Radiophysical Institute of Nizhny Novgorod State University n.a. N.I. Lobachevsky
(Nizhny Novgorod, Russia)
2 Southern Federal University (Rostov-on-Don, Russia)
3 Volga State University of Water Transport (Nizhny Novgorod, Russia)
 

25-33
The possibilities of implementing measurements of the angle of the place in the ZG of the spatial wave radar

G.N. Tkachev1, O.V. Karpenko2, A.E. Suchkov3, V.N. Shvedov4

1–4 JSC «DRSRI» (Moscow, Russia)
 

34-40
Estimation of coherence of the signal reflected from objects on Earth's surface in bistatic space SAR system

A.G. Vinogradov1, A.N. Teokharov2

1,2 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
1 A. M. Obukhov Institute of Atmospheric Physics of RAS (Moscow, Russia)
 

41-48
Assessment of the capabilities and prediction of the characteristics of the atmospheric waveguide channel of radar signals propagation

A.G. Vinogradov1,2, A.N. Teokharov2

1,2 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
1 A.M. Obukhov Institute of Atmospheric Physics of RAS (Moscow, Russia)
 

49-57
Experimental flight-test complex JSC RTI – an information and technological base for aerospace information facilities creation

V.V. Evdokimov1, M.K. Generalov2, N.V. Parsaev3

1–3 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
 

58-65
Methodology of data processing of the control and diagnostic system to maintain the energy potential of the long-range radar station

A.Yu. Perlov1, V.A. Pankratov2, A.V. Timoshenko3, V.B. Tikhonov4

1–3 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
4 Yaroslavl Higher Military School of Air Defense (Yaroslavl, Russia)
 

66-73
Method for determining motion parameters of radio emission source in passive emitter tracking multiple radar system

D.M. Petrochenkov1, A.V. Fedotov2, V.A. Pakhomov3, S.V. Yakubovsky4

1–3 Yaroslavl Higher Military School of Air Defense (Yaroslavl, Russia)
4 Research and Testing Center of the Central Research Institute of the Aerospace Defense Troops of the Ministry
of Defense of the Russian Federation (Moscow, Russia)
 

74-80
Thermal model of reliability of high-potential radar in real time

V.M. Antoshina1, D.I. Bukhanets2, V.S. Smirnov3, I.B. Zager4, V.B. Tikhonov5, V.L. Yusha6

1–3 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
4 Lomonosov Moscow State University (Moscow, Russia),
5 Yaroslavl Higher Military School of Air Defense (Yaroslavl, Russia),
6 Omsk State Technical University (Omsk, Russia)
 

81-91
Algorithm of preparation of the long-range radar station work in special modes on the basis of real-time reliability model

A.S. Logovsky1, S.V. Ignatiev2, D.V. Bogomaz3, A.Yu. Perlov4

1,3,4 “Academician A.L. Mints Radiotechnical Institut” JSC (Moscow, Russia)
2 Yaroslavl Higher Military School of Air Defense (Yaroslavl, Russia)
 

92-100