A fuzzy adaptive control method is proposed for a flexible robot manipulator.
摘要提出了一种用于柔性机器人操作臂控制的模糊自适应控制策略。
A new adaptive control algorithm is proposed in this paper to compensate nonlinear terms in the dynamic equation of robot and decouple the dynamic interaction among the joints.
本文提出一种新的自适应控制算法,用于补偿机器人动力学方程中的非线性项和消除关节间的耦合。
This paper presents a new adaptive fuzzy control scheme and its application to speed servo control for a quadruped robot.
本文提出一种新的模型参考自适应模糊控制器,并应用于步行机器人关节速度伺服控制。
A new robot model reference adaptive control method based on neural networks is presented.
提出一种新的基于神经网络的机器人模型参考自适应控制方法。
With the function of auto-orientation, following track and control ware, the Robot can adjust its locus on time and can improve adaptive and cleverness in itself.
该系统具有对摄像机视场中特征点自动定位和跟踪功能。 结合工业机器人控制软件,该系统使工业机器人能实时地调整运动轨迹,提高其适应性和灵活性。
To adapt to complex environment, improve control performance and simplify the control complexity, a hierarchical adaptive fuzzy logic control of the pipe robot is presented.
为了适应空调管道的复杂环境,提高空调管道清扫机器人控制性能,降低控制复杂度,构建了一个分层的自适应模糊控制器。
A decentralized robust adaptive control scheme is given for a class interconnected robot systems with modeling uncertainties and exterior disturbances.
研究一类存在模型不确定性和外部扰动的互联机器人系统的控制问题。
Mathematical model of adaptive variable structure of control system for DC servo robot was established with nonlinear sliding mode formed with saturation type scalar functions.
采用饱和型标量函数构成非线性滑模建立直流伺服机器人控制系统的自适应变结构数学模型。
The controller consists of a linear PD feedback part, a nonlinear adaptive feedback part to compensate for the dynamics of robot and a robust control part to compensate for the uncertainties of model.
该控制器由三部分组成:线性PD反馈项,补偿动力学的自适应控制项,补偿建模不确定性的鲁棒控制项。
This paper proposed a new class of robust adaptive decentralized control strategies based on nonlinear sliding mode for trajectory tracking of robot manipulators with uncertainties.
提出了一类基于非线性滑动模的鲁棒自适应分散控制策略,用于不确定性机器人的轨迹跟踪。
So an adaptive feed forward control method is proposed, this method basing on robot dynamics adopts ideal trajectory on workspace to control robot, its stability is analyzed.
因此本文根据机器人动力学模型的性质设计了一种利用机器人工作空间理想轨迹控制的自适应前馈控制方法,并对自适应控制下系统的稳定性进行了分析。
This paper proposes a linear perturbation adaptive control scheme with integrators and a model following control scheme with gravity compensation for robot manipulators.
本文提出了机械手在关节坐标系中的引入积分作用的线性扰动自适应控制和引入重力补偿的模型跟随自适应控制方案。
This paper proposes a linear perturbation adaptive control scheme with integrators and a model following control scheme with gravity compensation for robot manipulators.
本文提出了机械手在关节坐标系中的引入积分作用的线性扰动自适应控制和引入重力补偿的模型跟随自适应控制方案。
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