2020 Systems of signals generating and processing in the field of on board communications
The international scientific and engineering conference “Information Society Technologies” has been held since 1975. For 45 years of work the conference has become a widely known forum for specialists of the field.
As part of the conference the reports on the direction «Systems of signals generating and processing in the field of on board communications» were placed according to the sections. Due to the significantly increasing of the interest and the level of the participants’’ presented papers in this field, by the program committee was made a decision to allocate this chapter as a new original international scientific conference starting with the 2018.
The main areas of the conference «Systems of signals generating and processing in the field of on board communications» include modern digital transportation systems design and technical operation, radio waves propagation, transmitting, receiving and processing signals in television and radio broadcasting devices, information technologies in transport.
The presentations are made by the scientists and developers from 12 countries: Russia, Germany, Finland, Belarus, Ukraine, Azerbaijan, Armenia, Kazakhstan, Uzbekistan, China, Lebanon and Mongolia.
IEEE Region 8, Chair of AP/LEOS Moscow Chapter, Vice-chair of MTT/ED/AES Moscow Chapter Vadim A. Kaloshin is the Chairman of the Technical Program Committee. He organizes the work of the conference sections «Antennas and Radio Waves Propagation» and «Navigation and Mathematical Algorithms of an Object Space Orientation».
Branch Director of the IEEE Worldwide Limited in the Russian Federation and Scientific Secretary of Russian (Moscow) IEEE Circuits and Systems (CAS04) Chapter Roman Y. Ivanyushkin promotes this conference among the Engineers in the field of Telecommunications. He also organizes the work of the conference Chapter «Radiofrequency Applications».
IEEE Chair of Russian Section Chapter, MTT/ED and Chairman of Russian Branch IEEE Circuits and System Society take part in the work of the other conference sections and make presentations at the plenary session of the conference.
The papers which are discussed at the conference can be divided into the following chapters:
1. Antennas and Radio Waves Propagation
2. Navigation and Mathematical Algorithms of an Object Space Orientation.
3. Radiofrequency Applications.
4. Wire and Optical Communication and Control Systems.
5. Intelligent Transport Systems
This paper presents the urgent problem of improving the developed satellite telecommunication equipment reliability and quality. An analysis of the approaches used in the Russian Federation and the United States to assess the "production quality factor" is made, that directly affects the dependability and quality of the telecommunication equipment. Particular criteria are developed to evaluate the efficiency of the quality management system at the enterprises. Recommendations for the implementation of the developed criteria in the mathematical model for assessing the "production quality coefficient" for the failures category related to the systems management process factor are given.
In this paper, an overview of application of antennas on flexible substrates is presented. Analysis of possible using this type of structures in areas military, industrial, medical, fashion electronics, occupation of safety and health, is showed. The problems of using small-sized antennas with flexible substrates for everyday use are also considered.
In this paper, we study the effect of the bending effect on the electrodynamic characteristics of the RFID tag. The simulation of RFID tags with a more complex topology was carried out. An antenna based on a circular meander line was taken as the basis of the tag and its reduced model was presented. The results of the study allow us to see the negative changes in the electrodynamic characteristics during flexible deformations. This will allow to take into account during design and production the features of the behavior of RFID tags during operation (transportation, wear, etc.) in order to increase the likelihood of reading tags under adverse operating conditions.