Contents
| Space Navigation Systems and Devices. Radiolocation and Radio Navigation | |
| Method for Assessment of Integrity of High-Precision Navigational Sightings Kurshin V.V., Molokanov A.V. |
3 |
| Aerospace Methods for Earth Remote Sensing | |
| Features of Thematic Processing of Hyperspectral Information Received from the Resurs-P Spacecraft for the Monitoring Tasks and Detection of the Objects of Environment Strykov A.I. |
11 |
| Limiting Instrumental Resolution of the Resurs-P Spacecraft (No. 1, 2, 3) Sviridov K.N. |
20 |
| Radio Engineering and Space Communication | |
| Estimation of the Spectral Efficiency and Noise Immunity of the Coherent Reception of an Unfading QBL–MSK Signal Poddubnyy V.N. , Gribanov V.V., Lozhkin K.Yu., Sobolev D.B., Petrenko A.N., Poltavets Yu.I. |
29 |
| Probabilistic Model of Satellite Radio Communication Channel at Small Elevation Angles Zvonarev V.V., Karabelnikov I.A., Paramonov I.Yu., Popov A.S. |
38 |
| Development of a Stable Differential-Equisignal Method for Spacecraft Autotracking with a Digital Antenna Array Vatutin S.I. |
43 |
| Radio Transmitter with Frequency Modulation and Time Division of Channels for High-Information Telemetry Systems Gribkov N.V., Bobylev A.V., Yurkov Yu.A., Zhukovskiy S.Yu., Gribkov V.N. |
61 |
| Systems Analysis, Spacecraft Control, Data Processing, and Telemetry Systems | |
| Paradigm Shift in the Development of Innovative Products: from Disparate R&D to Full Life Cycle Digital Projects Romanov A.A. |
68 |
| Algorithms for Elimination of the Redundancy of the Information Transmitted from Onboard Telemetry System to the Earth Oreshko V.V. |
85 |
| Solid-State Electronics, Radio Electronic Components, Micro- and Nanoelectronics, Quantum Effect Devices |
|
| Design Features of Sensitive Elements for Quartz and Silicon Pendulum Accelerometers Vetrova E.V., Smirnov I.P., Kozlov D.V., Zapetlyaev V.V. |
95 |