Dynamic Analysis and Controller Design for the Ballbot

机译：机器人的动力学分析与控制器设计

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A ballbot is a dynamically stable mobile robot that shows the capability of omnidirectionality, agility, and maneuverability on a floor. This paper presents the design prototype and control scheme of a ballbot. By assuming that the effected noise is white gaussian noise, a Kalman estimator is applied to estimate the internal state of the system. To improve the trajectory tracking performance of the ballbot, a Linear Quadratic Tracking (LQT) controller is designed to balance and transfer the ballbot system taking into account the presence of the noise in system, and the numerical simulation results imply the correctness of the system modeling and effectiveness of LQT control design for a MIMO ballbot system.

机译：球形机器人是一种动态稳定的移动机器人，可显示地板的全向性，敏捷性和可操作性。本文介绍了一种球形机器人的设计原型和控制方案。通过假定受影响的噪声是高斯白噪声，可应用卡尔曼估计器来估计系统的内部状态。为了提高机器人的轨迹跟踪性能，设计了一种线性二次跟踪（LQT）控制器，以考虑到系统中存在的噪声来平衡和转移机器人系统，数值模拟结果暗示了系统建模的正确性MIMO Ballbot系统的LQT控制设计的有效性和有效性。

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《IEEE Conference on Industrial Electronics and Applications》|2020年|1669-1672|共4页
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作者
Zhuang He; Liang Yan; Xiaoshan Gao; Chris Gerada;
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ballbot; Lagrangian method; LQT control; Kalman filter;

机译：机器人;拉格朗日法;飞行控制;卡尔曼滤波器;

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1. Linear Controllers for the NXT Ballbot with Parameter Variations Using Linear Matrix Inequalities [J] . Rafael A. Garcia-Garcia, Manuel Arias-Montiel Control Systems, IEEE . 2016,第3期

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机译：用于Ballbot的LQR控制器的设计和硬件实现
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Dynamic Analysis and Controller Design for the Ballbot

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