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作 者:宋小全[1] 韦震[1] 韩中生[1] 龙方[1] 王禹[1]
出 处:《太赫兹科学与电子信息学报》2013年第4期512-517,共6页Journal of Terahertz Science and Electronic Information Technology
摘 要:临近空间高速飞行器测控需要解决"黑障"、超视距时空连续覆盖和多目标等难题,根据太赫兹电磁波可以穿透等离子体而大气传输损耗大的特点,研究以飞机和飞艇为主要平台的空基太赫兹测控系统,提出采用扩频体制实现对高速飞行器进行测距、测速、遥测和遥控的综合测控以及多目标测控,采用nR R(n≥3)测量体制实现高速飞行器的外弹道测量,分析表明空基太赫兹扩频测控系统技术可行,但离工程应用还有较大差距。Tracking Telemetry and Command(TT&C) for near space hypersonic spacecraft needs to solve blackout, over-the-horizon and multi-target problems. According to the characteristics that Terahertz waves can penetrate the plasma and are attenuated intensively in the atmosphere, the Terahertz TT&C system based on airborne platform including aeroplane and airship is researched. The Terahertz system can accomplish integrated function of velocity measurement, ranging, telemetry and telecommand by using spread spectrum technology ; and tracking telemetry and command for multi-target can be realized as well. The ballistic measurement of hypersonic spacecraft can be implemented by using nR R (n≥ 3) method. The analysis results indicate that the technology solutions for air-borne Terahertz spread spectrum TT&C system are reasonable, while there are significant differences for engineering application.
分 类 号:TN219[电子电信—物理电子学] V243[航空宇航科学与技术—飞行器设计]
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