l波段初级监视雷达在室外环境下RC四轴飞行器和RC固定翼RCS估计研究

2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST) Pub Date : 2022-06-08 DOI:10.1109/iceast55249.2022.9826327

W. Vinicchayakul, N. Limsumalee, Intouch Tonklang, Pattrawut Srimuang, Anupan Phungasem, P. Supanakoon

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引用次数: 0

摘要

本文研究了工作频率为1215 ~ 1350 MHz的l波段初级监视雷达(PSR)对遥控(RC)四轴飞行器和RC固定翼飞行器雷达截面(RCS)的估计。在室外环境下，采用单站雷达型矢量网络分析仪对两种RC进行了测试。从RCS估计的角度分析了RC四轴飞行器和RC固定翼飞行器在l波段初级监视雷达各角度下的信道脉冲响应特性。当使用PSR l波段频率范围时，RCS值随结构的变化而变化。此外，总体而言，RC四轴飞行器和RC固定翼RCS值大致相同，可能是因为它们都是由塑料制成的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Study of RC Quadcopter and RC Fixed-Wing RCS Estimation in an Outdoor Environment with L-Band Primary Surveillance Radar

This paper presents a study of remote control (RC) quadcopter and RC fixed-wing radar cross section (RCS) estimation with L-Band primary surveillance radar (PSR), working at 1215–1350 MHz. Both RC were tested in an outdoor environment by using vector network analyzer which set up in monostatic radar type. The results illustrate a characteristic of RC quadcopter and RC fixed-wing with the channel impulse response in L-Band primary surveillance radar at each angle in term of the RCS estimation. The RCS value when using the PSR L-Band frequency range changed with the structure. Moreover, overall, the RC quadcopter and RC fixed-wing RCS values are approximately the same, possibly due to the fact that both of them are made of plastic.

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2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST)

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