Has carried on the analysis and the adjustment to the robot hardware architecture, and analyzed the robot kinematics model.
对机器人硬件结构进行了分析和调整,对机器人的运动学模型进行了分析。
A new way to build a model of inverse kinematics of a robot was proposed.
提出了一种机器人逆运动学问题建模的新方法。
And the mathematical model of robot kinematics is established.
建立了机器人小车的运动学数学模型。
A mechanism model and a kinematics research method for bionic kangaroo hopping robot are presented.
提出了仿袋鼠跳跃机器人机构模型及运动学研究的方法。
Constraint equations were constructed by using distance error model, and the actual geometric parameters of the robot were solved, and then these parameters were used in the modified kinematics model.
利用距离误差模型构造出机器人本体的约束方程,并求解出机器人的实际几何参数,进而将该参数应用于修正系统的运动学模型。
Based on the theory of robot kinematics, the movement system of the machine and its mathematics model were established.
基于机器人运动学理论建立五自由度机床坐标系统并推导出数学模型。
The new method is called welded line tangent method which forms a kinematics model for the robot operating in the bent degree based on the judgment of the tacking system.
该方法是根据焊缝跟踪系统判断焊缝的弯曲程度,确定机器人的运动学模型。
The autonomous cleaning robot moving mechanisms are designed, the kinematics model of the robot is developed, it's motion characteristics are analyzed and experimented.
设计了自主移动清洁机器人的运动机构,建立了机器人的运动学模型,并对机器人的运动学性能进行了理论分析与实验研究。
Firstly, a kind of kinematics model of two-wheel driven mobile robot is analyzed. Aimed at its trajectory tracking control problem, the sliding-mode controller is designed.
首先,分析一类两轮移动机器人的运动学模型和动力学模型,针对其轨迹跟踪控制问题,设计滑模控制器。
Based on the theory of homogeneous transformation and DH method in robot kinematics, the coordinate measuring model of articulated arm system is established, the system measuring space is given.
利用机器人运动学中的齐次坐标变换理论和D - H坐标描述方法建立了关节机械臂系统的坐标测量数学模型,并给出了系统测量空间。
The second method researches dynamic path planning under dynamic environment of mobile robot subjecting to rolling constraint that is involved in the robotic kinematics model.
第二种方法从轮移式机器人的运动学模型出发,研究了受到滚动约束的移动机器人在动态环境中的运动规划问题。
The robotic forward kinematics model can estimate the position and orientation of the PWLER robot relative to the world coordinates using each driving wheel's rotational velocity of the robot.
运用正向运动学模型,根据PWLER各驱动轮的转速可估算出机器人相对于绝对坐标系的位置和姿态。
Making the compliance hopping model according with the kangaroos' kinematics and doing research to model's dynamics have become the pre-requisite and key problem for making the hopping kangaroo robot.
研究符合袋鼠生物运动特征的柔性弹跳机构模型及其动力学特性是仿袋鼠机器人研发的必要基础和关键技术。
We also take the kinematics model of wheeled mobile robot into account and use the speed of wheels directly as the output of fuzzy rules.
我们还需要考虑的轮式移动机器人的运动学模型和模糊规则的输出,直接用车轮的速度。
In the MATLAB environment, use the Robotics Toolbox to establish the mathematical model of the robot, and carries on the kinematics simulation and trajectory plan - ning.
在MATLAB的环境下,使用RoboticsToolbox工具箱建立该机器人的数学模型,并对其进行运动学仿真及轨迹规划。
A kinematics model by post D-H method for 4R-robot was offered in this paper, which derived the manipulator finger position and its attitude with unit vectors of direction cosine.
采用D-H后置法建立了4R机器人运动方程,建立机器人执行机构在空间相对位置关系的数学模型,由此可解出手部位置和用单位矢量方向余弦表示的姿态。
In the second chapter, the theoretical basis and propelling principle are introduced. With the analyzing of kinematics and dynamics of the swimming micro-robot, the theoretical model is build up.
第二章介绍了微型泳动机器人的理论基础和驱动原理,对微型机器人进行运动学和动力学分析,建立理论研究模型。
The kinematics model and driving force model for the micro in-pipe robot in line pipe and bending pipe are established, which can provided control basis for external power.
建立了微型管道机器人在直线管道、弯曲管道的运动学分析和驱动力分析模型,为驱动力外置提供了控制依据。
The kinematics model and driving force model for the micro in-pipe robot in line pipe and bending pipe are established, which can provided control basis for external power.
建立了微型管道机器人在直线管道、弯曲管道的运动学分析和驱动力分析模型,为驱动力外置提供了控制依据。
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