A.I. Borodkin and B.M. Bulgakov Quasi-Optical
Solid-State Oscillators |
1-21
|
A.Yu. Panchenko Equation of State in
the Set of Acoustics Equations for a Moving Non-Uniform Medium |
22-25
|
A.I.Filipenko. A Method for Optic Fiber
Radiation Analysis. |
26-28
|
A.I.Filipenko, B.A.Malik. Precision Control
of the Components of the Fiber-Optic Data Transmission System |
29-31
|
L.M.Karpukov, R.D.Pulov, and S.N.Romanenko
Dispersion Properties of Coupled Microstrips |
32-37
|
V.G. Galushko A technique for detecting
quadratic-type nonlinearities of random processes in the presence of additive
noise |
38-45
|
V.V. Dolzhikov and V.G.Likhograi Optimizing
Power Transmission by a Microwave Beam in the Presence of Random Errors
of the Transmit Antenna Excitation |
46-52
|
S.A. Masalov, A.O. Puzanov, A.I. Timchenko
Non-Stationary Excitation of Layered Dielectric Structures |
53-62
|
V.I. Atuyfeev Optimization of a Total
Power Radiometer Based on the Systems Analysis Approach |
63-66
|
V. I. Lutsenko and S. I. Khomenko Frequency
Dependences of Target RCSs at Decameter Wavelengths |
67-73
|
N.I.Matyukhin Multi-Positional Coherent
Radar System Antenna Self-Focusing for Transmission as Many Targets Having
Equal effective Scattering Areas |
74-78
|
N.I.Matyukhin Quasi-Optimum Algorithm
for Radioholographic System Antenna Self-Focusing for reception as to Single
Target with Its Location Evaluation in the Presence of Additive and Multiplicative
Disturbances |
79-82
|
N.I.Matyukhin Quasi-Optimum Algorithm
for Radioholographic System Antenna Self-Focusing for reception as to Many
Targets in the Presence of Additive and Multiplicative Disturbances |
83-87
|
O.V. Lazorenko and L.F. Chernogor Special
Features of distributed targets radar equation when employing superwide-band
signals |
88-91
|
A.M.Gokov and O.F.Tyrnov Application
of the Partial Reflections Technique to Studying the Response of the Lower
Ionosphere to Strong Distant Earthquakes |
92-100
|