LQR and Fuzzy Gain-Scheduling based attitude controller for RLV within large operating envelope

机译：基于LQR和模糊增益调度基于RLV的RLV姿态控制器

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Considering the strong uncertainties of aerodynamic parameters and atmospheric environment and the large dynamic variation during the Reusable Launch Vehicle (RLV) reentry process, this paper introduces an attitude controller design method which combines Linear Quadratic Regulator (LQR) with Fuzzy Gain-Scheduling (FGS). The whole operating envelope is divided into several design points firstly. And then, control state deviation based LQR controllers are designed for design points respectively. Thereafter the FGS controller is obtained by the use of Takagi-Sugeno (TS) fuzzy model. In the next step, the 6-DoF nonlinear simulation conveys that the stability of off-design points is guaranteed and the proposed controller is capable of maintaining a satisfactory tracking performance under uncertainties among the operating envelope.

机译：考虑到空气动力学参数和大气环境的强不确定性以及可重复使用的发射车辆（RLV）再入过程中的大动态变化，介绍了一种姿态控制器设计方法，将线性二次调节器（LQR）与模糊增益调度（FGS）相结合。整个操作信封首先分为几个设计点。然后，基于控制状态偏差的LQR控制器专为设计点设计。此后，通过使用Takagi-Sugeno（TS）模糊模型来获得FGS控制器。在下一步骤中，6-DOF非线性模拟传达，保证了偏离设计点的稳定性，并且所提出的控制器能够在操作包络之间的不确定性下保持令人满意的跟踪性能。

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来源
《IEEE International conference on Control Science and Systems Engineering》|2014年||共6页
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作者
Ang Li; Lingyu Yang; Jing Zhang; Chaofan He;
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中图分类自动控制、自动控制系统;
关键词
Fuzzy Gain-Scheduling; LQR; RLV reentry; large operating envelope;

机译：模糊增益调度;LQR;RLV再入;大型操作包络;

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专利

1. A ROBUST GAIN-SCHEDULING CONTROL BASED ON VSC AND FUZZY LOCAL CONTROLLER NETWORK [J] . HU Jian-bo, SU Hong-ye, CHU Jian Journal of Zhejiang University . 2000,第3期

机译：基于VSC和模糊局部控制器网络的鲁棒增益调度控制。
2. A ROBUST GAIN-SCHEDULING CONTROL BASED ON VSC AND FUZZY LOCAL CONTROLLER NETWORK [J] . HU Jian-bo, SU Hong-ye, CHU Jian Journal of Zhejiang University Science: An international applied physics & engineering journal . 2000,第3期

机译：基于VSC和模糊局部控制器网络的鲁棒增益调度控制。
3. A ROBUST GAIN-SCHEDULING CONTROL BASED ON VSC AND FUZZY LOCAL CONTROLLER NETWORK [J] . HU Jian-bo, SU Hong-ye, CHU Jian Journal of Zhejiang University. Science, A . 2000,第3期

机译：基于VSC和模糊本地控制器网络的强大增益调度控制
4. LQR and Fuzzy Gain-Scheduling based attitude controller for RLV within large operating envelope [C] . Ang Li, Lingyu Yang, Jing Zhang, IEEE International conference on Control Science and Systems Engineering . 2014

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LQR and Fuzzy Gain-Scheduling based attitude controller for RLV within large operating envelope

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