Research on Aircraft Direction Finding Based on Antenna Directionality Parameter Identification

• Published in: Unmanned systems (Singapore) pp. 1 - 14
• Main Authors: Tang, Xinmin, Tang, Shengjia, Gu, Junwei, Guan, Xiangmin, Yuan, Weili
• Format: Journal Article
• Language: English
• Published: 27.08.2024
• ISSN: 2301-3850; 2301-3869
• DOI: 10.1142/S2301385025500542

Radar direction finding is an essential cooperative monitoring method for aircraft, and the directional parameters of the direction-finding antenna determine the accuracy of direction finding. A modified amplitude comparison direction finding model is proposed based on the traditional principle of adjacent amplitude comparison direction finding and the error of amplitude comparison direction finding. Based on the modified amplitude comparison direction finding model, an error correction genetic simulated annealing (COR-GSA) algorithm is proposed to identify unknown directional antenna directionality parameters by determining the antenna directionality parameters that need to be identified. Identification experiments were conducted using a self-designed dual channel DF receiver, and 1000 sets of aircraft real azimuth data were used for verification. The results showed that using the COR-GSA algorithm to identify antenna directional parameters had the highest DF accuracy. Finally, the identified antenna directionality parameters were used to track the aircraft’s azimuth, and the tracking error was reduced by 18.3% compared to the tracking error without azimuth correction.