Robot dynamics is a complex dynamic system, on the dynamic response of the processing object depending on the robot dynamics model and control algorithm.
机器人动力学是复杂的动力学系统,对处理物体的动态响应取决于机器人动力学模型和控制算法。
This paper discusses the dynamics and control problems of the robot.
本文讨论了该机器人的动力学及控制问题。
Attention is paid to the specific characteristics in the dynamics and control issues appeared in multiple robot systems, which do not appear in single robot cases.
着重讲述了机器人系统(多机器人)动力学与控制的独特性质,以及所提出的独特控制问题,这些性质与问题是单机器人控制和一般控制问题中所没有的。
The dynamics equation of humanoid robot is highly nonlinear and highly coupled, so analyzing the interactive forces between different parts is the basis of advanced control methods.
拟人机器人的动力学具有高度非线性、高度耦合的特点,分析清楚各组成部分之间的交互作用力是实施高级控制方法的基础。
This paper mainly studies the kinematics and dynamics modeling of the obstacle negotiation for an uneven ground six-wheeled-legged autonomous mobile robot and correlative control problem.
本文主要研究非平整地面六轮腿式自主移动机器人的越障运动学、动力学建模与控制的问题。
Dynamics and control in a moving flexible robot arm with variable sections are studied.
本文研究柔性变截面滑移式机械手的动力学与控制。
The relationship between robot design, control and the dynamics is discussed briefly.
简要讨论动力学与机器人控制、设计的关系。
Lie groups and Lie algebras were used to study the dynamics and control of robot system with active and passive joints.
采用李群李代数符号描述了含主被动关节机器人的动力学分析和控制问题。
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。
Robot visual servo system involves a wide range of content, for example image processing, kinematics, dynamics, control theory, real-time calculation and so on.
实现机器人的视觉伺服系统涉及到图象处理、运动学、动力学、控制理论、实时计算等多方面的内容。
Robot visual servo system involves a wide range of content, for example image processing, kinematics, dynamics, control theory, real-time calculation and so on.
实现机器人的视觉伺服系统涉及到图象处理、运动学、动力学、控制理论、实时计算等多方面的内容。
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