XXIII scientific and technical conference “Radar, navigation, communications. Conference plan

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Chief Editor- doc. tech. Sciences, Professor V.E. Farber.

Editorial team: D.L. Ventsenostsev, V.V. Denisenko, S.I. Ivanov, V.N. Kozlov, B.A. Levitan, D.S. Ochkov, E.N. Popova, S.P. Skobelev, S.A. Topchiev

The journal “Radiolocation and Communications” (founder of PJSC “Radiophysics”) is published under the cover of the journal “Radio Engineering” as one of its sections “Radiosystems”. Therefore, all articles included in the journal “Radiolocation and Communications” are approved by the editorial board of the journal “Radio Engineering”.
The international scientific and technical journal "Radio Engineering" is one of the oldest and most famous scientific and technical journals in Russia (published since 1937). The journal's main focus is on key issues that determine the success of the development of avant-garde areas of radio engineering and electronics. It publishes original articles, technical solutions and presents the results of the latest research in all areas of radio engineering and electronics: location, navigation, communications, control, radio countermeasures, optoelectronics, acoustoelectronics, etc. Included in the List of Higher Attestation Commissions for scientific periodicals.

Archive of numbers

Radio systems: radar and communications No. 26 2018 (in the journal “Radio Engineering” No. 10 2018)

Radio systems: radar and communications No. 24 2017 (in the journal “Radio Engineering” No. 10 2017)
Radio systems: radar and communications No. 23 2017 (in the journal “Radio Engineering” No. 4 2017)
Radio systems: radar and communications No. 22 2016 (in the journal “Radio Engineering” No. 10 2016)
Radio systems: radar and communications No. 21 2016 (in the journal “Radio Engineering” No. 4 2016)
Radio systems: radar and communications No. 20 2015 (in the journal “Radio Engineering” No. 10 2015)
Radio systems: radar and communications No. 19 2015 (in the journal “Radio Engineering” No. 4 2015)
Radio systems: radar and communications No. 18 2014 (in the journal “Radio Engineering” No. 12 2014)
Radio systems: radar and communications No. 17 2014 (in the journal “Radio Engineering” No. 4 2014)
Radio systems: radar and communications No. 16 2014 (in the journal “Radio Engineering” No. 1 2014)
Radio systems: radar and communications No. 15 2013 (in the journal “Radio Engineering” No. 5 2013)
Radio systems: radar and communications No. 14 2012 (in the journal “Radio Engineering” No. 11 2012)
Radio systems: radar and communications No. 13 2012 (in the journal “Radio Engineering” No. 4 2012)
Radio systems: radar and communications No. 12 2011 (in the journal “Radio Engineering” No. 10 2011)
Radio systems: radar and communications No. 11 2011 (in the journal “Radio Engineering” No. 4 2011)
Radio systems: radar and communications No. 10 2010 (in the journal “Radio Engineering” No. 10 2010)
Radio systems: radar and communications No. 9 2010 (in the journal “Radio Engineering” No. 4 2010)
Radio systems: radar and communications No. 8 2009 (in the journal “Radio Engineering” No. 10 2009)
Radio systems: radar and communications No. 7 2009 (in the journal “Radio Engineering” No. 4 2009)
Radio systems: radar and communications No. 6 2008 (in the journal “Radio Engineering” No. 10 2008)
Radio systems: radar and communications No. 5 2008 (in the journal “Radio Engineering” No. 4 2008)
Radio systems: radar and communications No. 4 2007 (in the journal “Radio Engineering” No. 10 2007)
Radio systems: radar and communications No. 3 2007 (in the journal “Radio Engineering” No. 4 2007)
Radio systems: radar and communications No. 2 2006 (in the journal “Radio Engineering” No. 10 2006)
Radio systems: radar and communications No. 1 2006 (in the journal “Radio Engineering” No. 4 2006)

Radio systems: radar and communications No. 26 2018 (in the journal “Radio Engineering” No. 10 2018)

INFORMATION PROCESSING AND MANAGEMENT

Convergence of the α-β filter for different values ​​of the velocity shift coefficients
M.A. Murzova, V.E. Farber
The features of the α-β filter, which implements the process of automatic tracking along the range of objects by radar stations with a chirp signal, are considered. The convergence rate of the α-β filter is analyzed for various speed shift coefficients based on the impulse transient functions of the α-β filter. A comparison was made of the characteristics of filters for alternating and constant signs of the speed shift coefficient. The stability limits for the alternating velocity displacement coefficient are obtained.

Basic principles of using machine learning methods to evaluate the functioning of radar stations
I.A. Kalinov, A.A. Kochkarov, S.S. Matveeva
The issue of using methods is considered machine learning for predicting the state of complex structured radio-electronic systems. A data model for collecting information about the functioning of a radio-electronic system using a built-in control and monitoring system for the condition of its components (units) is proposed and justified. Using the proposed model, one of the common machine learning methods, gradient boosting, was adapted using a sample of retrospective data from the stand of the General Designer and an integrated control system to solve the problem of predicting the state of radar stations and its components.

A method for quickly assessing the characteristics of transmitting complexes of a multi-channel long-range radar at the stage of acceptance tests
S.F. Boev, A.A. Murashov, A.Yu. Perlov
A method for quickly assessing the characteristics of transmitting radio-electronic complexes of a multi-channel radar station at the stage of acceptance tests is considered. The method is based on the application statistical analysis to measurement results electrical characteristics output signals of the complex received during configuration work. It is noted that the developed method, in comparison with traditional approaches to testing REC, leads to a reduction in the volume of measurements, which makes it possible to increase the efficiency of assessing the characteristics of transmission systems while maintaining the specified reliability of measurements.

Formalization of information flows for the management of long-range detection radar stations by the duty shift
A.S. Logovsky, S.A. Putyato, M.N. Mochalov, A.A. Kochkarov
The need to formalize the composition and structure of information on the functioning of early warning radar stations, necessary to perform the tasks of the duty shift to control the station and make decisions during the operation of the station, is shown. The list of requirements for the actions of the duty shift, determined by the customer, was analyzed taking into account the restrictions imposed on the human operator when operating products of a number of early warning radar stations. Formalization proposed information flows, taking into account time restrictions on data processing by a human operator from the duty shift of long-range detection radar stations, and also adequately representing the external operational-tactical situation and technical condition stations.

Development and research of a model for the functioning of an algorithm for classifying axisymmetric control objects based on polarization characteristics
A.A. Kopylov, G.P. Kobelkov
A model for the functioning of an algorithm for classifying axisymmetric control objects based on polarization characteristics has been developed. A simulation of the functioning of the classification algorithm based on implementations of polarization scattering matrices was carried out for the main classes of axisymmetric control objects with different geometric sizes and proportions obtained using a model for calculating backscattering diagrams. The results of the simulation are presented.

EQUIPMENT AND TESTING

Scattering of an H-polarized plane wave on an inhomogeneous dielectric cylinder of arbitrary cross section. Part 2. Modification of the method and numerical results
E.S. Nekrasova, O.N. Smolnikova, S.P. Skobelev
A modification of the hybrid projection method (HPM), described in the first part of the work, has been developed, designed to improve the convergence of the solution in the presence of large gaps in the dielectric constant profile. The modification is based on the use of rules established by L. Lee to ensure the correct expansion of the product of periodic functions into a Fourier series. The results of applying the original and modified GPM to the calculation of scattering characteristics on a homogeneous elliptical cylinder, an ideally conducting cylinder with a homogeneous and inhomogeneous plasma shell, as well as a semi-cylindrical Maxwell lens are presented. A comparison is made of the results corresponding to homogeneous scatterers with the reference results obtained using the auxiliary source method.

The concept of building a pilot production of AFAR PPM at the enterprise-developer of aerospace defense equipment
P.A. Tushnov, A.N. Kostromov, D.A. Sudarenko
Described general principles building an effective pilot production of enterprises carrying out experimental design developments, and the results of their implementation using the example of creating a pilot production of AFAR PPM. The concept of constructing a pilot production of AFAR PPM in the form of a two-level integrated system of production sites is presented and the specific features of the pilot production of AFAR PPM are considered. The principles and tools for organizing production are described to reduce the influence of variability factors when performing R&D of new types of APAA MRP. In order to provide control technology production system created pilot production of PPM AFAR, a generalized structural-parametric description of the pilot production of the developer enterprise is proposed, the original structure of the functional model of the production site as an “atomic” cell of the enterprise, which has all the properties of nested hierarchical systems, is considered.

Results of modeling and reconstruction of backscatter diagrams of reference objects measured in the Fresnel zone
S.V. Elizarov, Yu.V. Krivosheev, Yu.A. Suserov, A.V. Tikhonova
The backscatter diagrams (BSD) of the reference metal cylinders of various geometries, as well as cylinders with asymmetrical cutouts, reconstructed from measurements in the Fresnel zone. Recommendations are given in which cases it is advisable to use the monostatic method of measuring the effective dispersion area (ESA), and in which cases it is advisable to use the bistatic one. The DOR of a reference cylinder with a generatrix of 1.5 m, calculated for the far zone and reconstructed from measurements in the Fresnel zone, was verified. It is noted that to apply the method it is necessary to provide both amplitude and phase measurements.

Determination of slip density limits and its optimal values ​​for the manufacture of bandpass filters on volumetric ceramic two-resonator monoblocks
N.Yu. Lobachev, D.S. Ochkov, M.Yu. Shepelyuk, M.L. Mikhailova, N.A. Basov, L.A. Bliznyuk
The dependence of the parameters of a bandpass filter (BPF) on a further increase in slip density was experimentally studied. The limits of slip density and its optimal values for the production of PPF. The amplitude-frequency characteristics of these filters are given. A new direction of research has been chosen to improve the technology for manufacturing ceramic cases of dual-resonator monoblocks.

Thermal regime of an orbital phased array with horn emitters
BEHIND. Yanukyan
The thermal regime of an orbital flat phased array with horn emitters is considered. Solution given central task radiation of thermal energy by a horn emitter.

Organizing Committee email: [email protected]

Organizers: NPF "SAKVÓEE", Voronezh State Technical University, Voronezh State University, etc.

The conference will include the following sections:

Section 0. Professorial Premier section.
Section 1. Common problems transmission and processing of information.
Section 2. Image recognition and processing.
Section 3. Digital processing signals.
Section 4. Radio communication systems and discrete message transmission.
Section 5. mobile connection.
Section 6. Satellite systems communication and information transfer.
Section 7. Thermal, laser-optical surveillance and communication systems.
Section 8. Radar.
Section 9. Synthetic aperture radar systems (SAR).
Section 10. Aerospace radio-electronic systems.
Section 11. Navigation. Positioning.
Section 12. Marine location and navigation. Hydroacoustics.
Section 13. Guidance systems.
Section 14. Ultra-wideband radio-electronic systems. Theory of fractals.
Section 15. Electrodynamics, radio wave propagation, antennas.
Section 16. Microwave technology.
Section 17. Interference. Electromagnetic compatibility. Section 18. Radio and optoelectronic reconnaissance and suppression.
Section 19. Radio engineering devices. Automated measuring systems (AMS).

XXIII Scientific and Technical Conference “Radar, Navigation, Communications”

April 18-20, 2017, Voronezh

April 18-20, 2017 JSC Concern Sozvezdie and Voronezh State
The university will hold an annual international scientific and technical conference.

The results of scientific and technological research and innovation improve quality integrated solutions, used in modern systems management and communications. The conference allows for verification scientific research, technical solutions and design problems in the creation of modern radio electronics products.

Representatives of universities, industrial enterprises, organizations and institutions of the Russian Ministry of Defense and other law enforcement agencies are invited to participate in the conference.

The conference will include plenary and sectional sessions.

The conference will be held at the Voronezh state university
(Voronezh, University Square, 1).

Section topics

1. Integrated solutions in automated control systems.

2. Reception, transmission and processing of signals in modern control and communication systems.

3. Radar, navigation and radio reconnaissance.

4. Information warfare at the present stage.

Conference plan

08.30 – 10.00 – registration of participants.

10.00 – 13.00 – plenary session.

13.00 – 14.00 – lunch.

10.00 – 13.00 – work in sections.

13.00 – 14.00 – lunch.

14.00 –18.00 – work in sections.

April 20, 2017– discussion of problematic issues, visits to enterprises
radio-electronic industry of Voronezh.

Requests for visits are accepted by representatives of enterprises; contact details are indicated in handouts.

Applications for participation in the conference are accepted in in electronic format until March 10, 2017

Participation in the conference is free. Travel and accommodation are at the expense of the participants.

Before the start of the conference, a collection of abstracts of reports is compiled in electronic form.

All conference participants must bring copies of reports in electronic form.

Papers submitted electronically before March 20 will be included in a collection published before the conference.

Papers submitted electronically after March 20 will be published in a collection after the conference.

Requirements for submitted applications and materials are set out in the application, as well as on the website

website

Information on organizational and technical issues participation in the conference:

tel. 8-910-749-73-05 – Sidorov Yuri Viktorovich.

tel. 8-473-252-09-06 – Tolstykh Nikolay Nikolaevich

E-mail:

Organizing committee of the conference.

The XXI International Scientific and Technical Conference “Radar, Navigation, Communications” (RLNC-2015) will be held on April 14-16, 2015 at Voronezh State University (VSU).

Organizers: NPF "SAKVOEE".

The organizing committee is supported by the Institute of Radio Engineering and Electronics of the Russian Academy of Sciences, the Institute of Laser Physics SB RAS, the Moscow State technical university them. N.E. Bauman, St. Petersburg State Electrotechnical University, St. Petersburg State University of Aerospace Instrumentation, Voronezh State University, Volga Region State Academy of Telecommunications and Informatics, Radio Engineering Institute. A. L. Mintsa, JSC Concern Constellation, etc.

Conference sections:

• section 0. Professorial Premier section;
• section 1. General problems of information transmission and processing;
• section 2. Image recognition and processing;
• section 3. Digital signal processing;
• section 4. Radio communication systems and discrete message transmission;
• section 5. Mobile communications;
• section 6. Satellite communication and information transmission systems;
• section 7. Thermal, laser-optical surveillance and communication systems;
• section 8. Radar;
• section 9. Synthetic aperture radar systems (SAR);
• section 10. Aerospace radio-electronic systems;
• section 11. Navigation. Positioning;
• section 12. Marine location and navigation. Hydroacoustics;
• section 13. Guidance systems;
• section 14. Ultra-wideband radio-electronic systems. Fractal theory;
• section 15. Electrodynamics, radio wave propagation, antennas;
• section 16. Microwave technology;
• Section 17. Interference. Electromagnetic compatibility;
• Section 18. Radio and optoelectronic reconnaissance and suppression;
• section 19. Radio engineering devices. Automated measuring systems (AMS).