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Technique of beam forming for the radar of railway crossing control

Railway crossing has always been a source of increased danger for vehicles and pedestrians crossing it. Every year in Russia, several hundred-road accidents occur at railway crossings, dozens of people die. To increase the safety of traffic at railway crossings, automatic systems for detection of ob...

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Bibliographic Details
Main Authors: Balashova, D. M., Burov, V. N., Kuzin, A. A., Mihaylov, A. D., Myakinkov, A. V., Fadeev, R. S., Shabalin, S. A., Fomina, K. S.
Format: Conference Proceeding
Language:English
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Summary:Railway crossing has always been a source of increased danger for vehicles and pedestrians crossing it. Every year in Russia, several hundred-road accidents occur at railway crossings, dozens of people die. To increase the safety of traffic at railway crossings, automatic systems for detection of objects in the immediate danger zone can be used. These are sensors of optical (cameras, lidars) and radio ranges. The main disadvantage of optical devices is their limited functionality in insufficient visibility conditions: snowfall, rain, fog. Note that the radar is devoid of this disadvantage and retains its specified detection characteristics under any weather conditions. The paper deals with the analysis of the approach to form the directivity characteristics of the phased antenna array for 24 GHz FMCW radar used in the system of automatic control at the railway crossings. The feature of the proposed technique is applying of two widely spaced incoherent omnidirectional in azimuthal plane transmitters that provide the interferometric structure of transmit pattern. The important requirement for radar systems of detecting objects at a railway crossing are a wide field of view (up to 90 degrees) and, at the same time, high accuracy in determining coordinates. The last requirement assumes a relatively high resolution in angular coordinates (several degrees). The proposed structure of the transmitting antenna array allows the improvement of the angular resolution in comparison with the conventional array with the same aperture. The receiving antenna array should provide a low level of the sidelobes and a given beamwidth of the radar directivity pattern. The rotation of the beam of the receiving phased antenna array is carried out in the digital signal processing (DSP) system, since separated phase shifters are also not used in receivers. Optimization was carried out on the level of the side lobes and the resulting width of the radar beam. To reduce the side lobe level, a sidelobe compensation method is used. It is known, zero is formed in DP of the compensation channel in the direction of the maximum of DP of the main channel. In the presented work, the central six channels of the receiver are used to form the main beam. In the case of a compensation beam, the first six channels have the opposite phase to the rest to form a zero of DP. Theoretical justification is presented. The results of mathematical modeling are shown. To study the features of work in a real ra
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0111064