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Globally convergent adaptive tracking of spacecraft angular velocity with inertia identification and adaptive linearization

机译：具有惯性识别和自适应线性化的航天器角速度全局收敛自适应跟踪

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The problem of a rigid body tracking a desired angular velocity trajectory is addressed using adaptive feedback control. An adaptive controller is developed for a planar rotating body tracking a desired angular velocity command. Lyapunov analysis is used to show that tracking is achieved globally. A periodic angular velocity command is then used to identify the inertia parameter. The adaptive controller is implemented on a triaxial attitude control testbed with fan thrusters. A piecewise linear approximation of an observed input nonlinearity is inverted to obtain improved angular velocity tracking and inertia identification. To eliminate residual tracking error, an adaptive algorithm is used for improved feedback linearization. Lyapunov analysis is used to show boundedness of the angular velocity and inertia estimate errors. The approach is validated by numerical simulation.

机译：使用自适应反馈控制解决了刚体跟踪期望的角速度轨迹的问题。开发了一种自适应控制器，用于跟踪所需角速度命令的平面旋转体。 Lyapunov分析用于表明跟踪已在全球范围内实现。然后使用周期性角速度命令来识别惯性参数。自适应控制器在带有风扇推进器的三轴姿态控制试验台上实现。将观察到的输入非线性的分段线性近似求反，以获得改进的角速度跟踪和惯性识别。为了消除残留的跟踪误差，采用了自适应算法来改善反馈线性化。 Lyapunov分析用于显示角速度和惯性估计误差的有界性。通过数值模拟验证了该方法。

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《》|2003年|p.2704-2709|共6页
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Sanyal; A.K.; Chellappa; M.; Valk; J.L.; Ahmed; J.; Jinglai Shen; Bernstein; D.S.;
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中图分类无线电电子学、电信技术;
关键词
angular velocity control; attitude control; Lyapunov methods; adaptive control; inertial systems; linearisation techniques; piecewise linear techniques; feedback; spacecraft angular velocity; adaptive tracking; adaptive linearization; inertia identification; rigid body tracking; angular velocity trajectory; adaptive feedback control; Lyapunov analysis; triaxial attitude control; fan thrusters; piecewise linear approximation; feedback linearization;

机译：角速度控制;姿态控制; Lyapunov方法;自适应控制;惯性系统;线性化技术;分段线性技术;反馈;航天器角速度;自适应跟踪;自适应线性化;惯性识别;刚体跟踪;角速度轨迹;自适应反馈控制;李雅普诺夫分析;三轴姿态控制;风机推进器;分段线性逼近;反馈线性化;

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专利

1. Globally convergent adaptive tracking of angular velocity and inertia identification for a 3-DOF rigid body [J] . Chaturvedi N.A., Bernstein D.S., Ahmed J., IEEE Transactions on Control Systems Technology . 2006,第5期

机译：三自由度刚体的角速度和惯性识别的全局收敛自适应跟踪
2. Adaptive Tracking of Angular Velocity for a Planar Rigid Body With Unknown Models for Inertia and Input Nonlinearity [J] . Nalin A. Chaturvedi, Amit K. Sanyal, Madhusudhan Chellappa, IEEE Transactions on Control Systems Technology . 2006,第4期

机译：惯性和输入非线性未知模型的平面刚体角速度的自适应跟踪
3. Adaptive Angular Velocity Tracking Control of Spacecraft with Dynamic Uncertainties [J] . Qiao Bing, Liu Zhenya, Hu Bingshan, 南京航空航天大学学报（英文版） . 2014,第001期

机译：具有动态不确定性的航天器自适应角速度跟踪控制
4. Globally Convergent Adaptive Tracking of Spacecraft Angular Velocity With Inertia Identification And Adaptive Linearization [C] . Amit K. Sanyal, Madhusudhan Chellappa, Jean IEEE Conference on Decision and Control . 2003

机译：具有惯性识别和自适应线性化的航天器角速度的全球会聚自适应跟踪
5. Neural adaptive nonlinear tracking using trajectory linearization. [D] . Liu, Yong. 2007

机译：使用轨迹线性化的神经自适应非线性跟踪。
6. Adaptive Kalman Filter-Based Single-Beacon Underwater Tracking with Unknown Effective Sound Velocity [O] . Zhong-Chao Deng, Xiang Yu, Hong-De Qin, 2018

机译：有效声速未知的基于自适应卡尔曼滤波器的单信标水下跟踪
7. Globally Convergent Adaptive Tracking of Angular Velocity and Inertia Identification of a 3-DOF Rigid Body [O] . Nalin A. Chaturvedi, Amit K. Sanyal, Jean Luc Valk, 2006

机译：三自由度刚体角速度和惯性识别的全局收敛自适应跟踪

Globally convergent adaptive tracking of spacecraft angular velocity with inertia identification and adaptive linearization

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