垂直起降飞机的数字自适应控制律

1978 IEEE Conference on Decision and Control including the 17th Symposium on Adaptive Processes Pub Date : 1900-01-01 DOI:10.1109/CDC.1978.268103

G. Hartmann, G. Stein

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引用次数: 1

摘要

美国国家航空航天局的垂直起降进近和着陆技术(VALT)项目正在为未来垂直起降飞机进行导航、制导、控制显示和飞行管理方面的研究。作为先进控制技术研究的一部分，霍尼韦尔设计了一个数字自适应飞行控制系统，用于VALT研究飞机的飞行测试——VALT研究飞机是一种串联旋翼中型运输直升机(一种改进的CH-47)。控制律接受来自机载自动制导系统的命令。控制律的主要目标是提供良好的命令跟随与最小的交叉轴响应。三种姿态和垂直速度分别被控制。控制律的自适应是基于速率和姿态陀螺仪以及垂直速度测量的信息。最终的设计源于对两种不同的自适应概念的比较——一种基于实时最大似然估计算法的显式参数估计，另一种基于隐式模型参考自适应系统。从性能和复杂度方面对两种设计进行了比较。

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Digital adaptive control laws for VTOL aircraft

The VTOL Approach and Landing Technology (VALT) Program of the National Aeronautics and Space Administration is conducting research in navigation, guidance, control display, and flight management for future VTOL aircraft. As part of the research in advanced control technology Honeywell designed a digital self-adaptive flight control system for flight test in the VALT Research Aircraft -- a tandem rotor medium transport helicopter (a modified CH-47). The control laws accept commands from an automatic on-board guidance system. The primary objective of the control laws is to provide good command following with a minimum cross-axis response. Three attitudes and vertical velocity are separately commanded. Adaptation of the control laws is based on information from rate and attitude gyros and a vertical velocity measurement. The final design resulted from a comparison of two different adaptive concepts -- one based on explicit parameter estimates from a real-time Maximum Likelihood Estimation algorithm, the other based on an implicit Model Reference adaptive system. The two designs were compared on the basis of performance and complexity.

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1978 IEEE Conference on Decision and Control including the 17th Symposium on Adaptive Processes

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