基于模糊控制逻辑的飞行耦合模型效应

Second International Conference on the Innovative Computing Technology (INTECH 2012) Pub Date : 2012-09-01 DOI:10.1109/INTECH.2012.6457789

A. Elmelhi

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引用次数: 0

摘要

在动力或主动飞行阶段，纵向通道、偏航通道和滚转通道之间的耦合对运载火箭的影响更为严重。由于速度较大，由耦合动力学引起的非期望横摇角和偏航角的影响可能会导致期望指令跟踪轨迹在纵向运动中的性能波动。在本研究中，转动惯量和运动耦合考虑两个目标。首先推导了它们的数学模型，并研究了它们对期望俯仰角指令跟踪精度的影响。其次，通过应用模糊比例导数控制器设计，与经典设计方法相比，可以解决由于这两种类型的耦合同时影响而导致的期望命令跟踪的显着下降。本文最后对某典型运载火箭进行了线性仿真，以验证本文的研究目标。

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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Flight coupling model effect based fuzzy control logic

The influences of coupling in a launch vehicle between longitudinal, yaw and roll channels are more serious in the region of powered or active flight phase. Due to large speed, the effect of undesired roll and yaw angles induced from coupling dynamics may cause fluctuations on the performance of a desired command tracking trajectory in the longitudinal motion. In this study, the moment of inertia and kinematic couplings are considered with two objectives in mind. First is to derive their mathematical models and study their affects on the tracking accuracy of the desired pitch angle command. Second, by applying fuzzy proportional derivative controller design, a significant degradation in the desired command tracking due to simultaneous effect of these two types of coupling can be addressed in comparing to the classical design approach. Linear simulation for a typical launch vehicle is carried out at the end of this paper to demonstrate the objectives of this study.

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Second International Conference on the Innovative Computing Technology (INTECH 2012)

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