分布式冗余飞行控制计算机的外部同步

IF 0.3 Q4 ENGINEERING, AEROSPACE SAE International Journal of Aerospace Pub Date : 2023-12-01 DOI:10.4271/01-17-02-0010
Mokhamad Khozin, Florian Holzapfel
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引用次数: 0

摘要

本工作介绍了一种以分散方式部署的飞行控制计算机(FCCs)的外部同步的实用方法。分布式飞控系统中fcc之间的内部同步需要扩展到特定的应用场合,因此迫切需要一种外部同步机制。例如,当空气数据和姿态参考系统(ADAHRS)和飞行控制计算机(FCC)不同步时,在ADAHRS传输数据的时间和FCC开始执行其控制功能的时间之间会出现死区或时间偏移,这可能会损害飞行控制系统的性能,甚至导致系统不稳定,特别是对于采用增量控制方法的系统,如增量非线性动态反演(INDI)。因此,针对分布式飞行控制系统,提出并实现了一种外部同步技术,该技术不依赖于建立与外部参考装置精确同步的全局时间视图。实验结果表明,该方法可以将分布式fcc同步到外部参考器件,具有较高的同步精度,并能处理不同的时钟漂移率。
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External Synchronization of Distributed Redundant Flight Control Computers
This work introduces a practical approach to external synchronization for flight control computers (FCCs) deployed in a decentralized fashion. The internal synchronization among the FCCs in distributed flight control systems needs to be extended for specific applications, necessitating an urgent need for an external synchronization mechanism. For instance, when the air data and attitude reference system (ADAHRS) and the flight control computer (FCC) are not synchronized, a dead time or time offset occurs between the time the ADAHRS transmits data and the time the FCC begins executing its control functions, which can impair flight control system performance or even cause system instability, particularly for the system with incremental control approaches, such as incremental nonlinear dynamic inversion (INDI). Therefore, an external synchronization technique that does not rely on establishing a global view of time that is accurately synchronized with an external reference device has been proposed and implemented for distributed flight control systems. The findings of the implemented system demonstrate that the suggested approach can synchronize the distributed FCCs to an external reference device with high synchronization precision and deal with varying clock drift rates.
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来源期刊
SAE International Journal of Aerospace
SAE International Journal of Aerospace ENGINEERING, AEROSPACE-
CiteScore
0.70
自引率
0.00%
发文量
22
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