Balancing Control of Robot Gymnast Based on Discrete-Time Linear Quadratic Regulator Technique

机译：基于离散线性二次调节器技术的机器人体操运动员平衡控制

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The most important purpose of this paper is to stablise and balance a robot gymnast (Robogymnast) upside down. The Robogymnast is a complex non-linear triple inverted pendulum system. Robogymnast attached to a freely rotating high bar mounted on ball bearings. It mimics the human acrobat, consists of three links and three joints, first joint is passive (unpowered joint) and the rest are active (powered joint). The passive join represents a great challenge to balancing the robot at the upright position. In order to achieve the required performance, the optimal control theory was used. The discrete-time linear quadratic regulator (DLQR) controller was carried out using the linearized mathematical model of the plant which was used to calculate the state feedback control law. Apart from this, the choice of weighting matrices of the DLQR was discussed. The results showed successful stablising and balancing of Robogymnast.

机译：本文的最重要目的是稳定和平衡倒立的机器人体操运动员（Robogymnast）。 Robogymnast是一个复杂的非线性三重倒立摆系统。 Robogymnast连接到安装在球轴承上的自由旋转的高杆上。它模仿人类的杂技演员，由三个环节和三个关节组成，第一个关节是被动的（无动力关节），其余的是主动的（动力关节）。被动连接对在垂直位置平衡机器人提出了巨大挑战。为了获得所需的性能，使用了最佳控制理论。使用工厂的线性化数学模型执行离散时间线性二次调节器（DLQR）控制器，该模型用于计算状态反馈控制律。除此之外，还讨论了DLQR加权矩阵的选择。结果表明Robogymnast的成功稳定和平衡。

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《International conference on artificial intelligence, modelling and simulation》|2014年|137-142|共6页
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Kamil H.G.; Eldukhri E.E.; Packianather M.S.;
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Balancing control; Discrete-time Linear Quadratic Regulator (DLQR); Robot gymnast; Triple inverted pendulum;

机译：平衡控制;离散线性二次调节器（DLQR）;机器人体操运动员;三重倒立摆;

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2. An iterative linear quadratic regulator based trajectory tracking controller for wheeled mobile robot [J] . Hao-jie?Zhang, Jian-wei?Gong, Yan?Jiang, Journal of Zhejiang university science . 2012,第8期

机译：基于迭代线性二次调节器的轮式移动机器人轨迹跟踪控制器
3. An iterative linear quadratic regulator based trajectory tracking controller for wheeled mobile robot [J] . Hao-jie ZHANG, Jian-wei GONG, Yan JIANG, 浙江大学学报（英文版）（C辑：计算机与电子） . 2012,第008期

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4. Balancing Control of Robot Gymnast Based on Discrete-Time Linear Quadratic Regulator Technique [C] . Kamil H.G., Eldukhri E.E., Packianather M.S. International conference on artificial intelligence, modelling and simulation . 2014

机译：基于离散时间线性二次调节器技术的机器人体操运动物的平衡控制
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Balancing Control of Robot Gymnast Based on Discrete-Time Linear Quadratic Regulator Technique

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