Please use this identifier to cite or link to this item: https://dspace.mnau.edu.ua/jspui/handle/123456789/26621
Title: Methodology for investigating the interference immunity of satellite navigation antenna arrays using ansys hfss
Authors: Slyusar, Vadym
Атаманюк, Ігор Петрович
Atamanyuk, Igor
Sliusar, Ihor
Shelemin, Zakhar
Sidenko, Ievgen
Kondratenko, Yuriy
Keywords: Ansys HFSS
controlled reception pattern antennas (CRPA)
Digital antenna array (DAA)
modelling
Antenna arrays
Directional patterns (antenna)
Electromagnetic compatibility
Electromagnetic simulation
Navigation
Satellite navigation aids
Signal interference
Controlled reception pattern antennas
Digital antennas
Interference immunity
Interference resiliences
Modeling
Null depth
Satellite navigation
Satellite antennas
Issue Date: 2026
Citation: Slyusar, V., Atamanyuk, I., Sliusar, I., Shelemin, Z., Sidenko, Ie., & Kondratenko, Yu. (2026). Methodology for investigating the interference immunity of satellite navigation antenna arrays using ansys hfss. [Conference abstract]. 24th Annual Industrial Simulation Conference – ISC’2026, San Sebastián, Spain. University of the Basque Country.
Abstract: This paper presents an HFSS-based procedure for quantifying the interference resilience of satellite-navigation antennas on autonomous platforms that employ digital antenna arrays and controlled reception pattern antennas (CRPAs). An individual element is first simulated to determine the operating band under the VSWR<2 criterion and to select the analysis frequency. The complete array is then solved with in-phase excitation to obtain the zenith peak gain P. Next, a phase distribution that enforces a zenith null is identified, the associated gain depression D is measured, and interference suppression is expressed as P−D. The workflow is demonstrated on navigation CRPAs of several topologies. A six-element ring yields a relative null depth of about 36.5 dB, whereas a seven-element ring provides up to 45 dB of suppression. The strongest performance is achieved by a dual-ring 16-element array, reaching a 53 dB null depth. A square 4×4 array is lower by 8.5 dB. In further research, it would be advisable to experimentally test the influence of phase errors and also to extend this approach to other electromagnetic simulators.
URI: https://dspace.mnau.edu.ua/jspui/handle/123456789/26621
Appears in Collections:Публікації науково-педагогічних працівників МНАУ у БД Scopus
Публікації у БД Scopus (Інженерно-енергетичний факультет)

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