And that force tends to cause it, if you have a moving charged particle, to deflect its trajectory and start rotating in a magnetic field.
这个力会产生这样的作用,有一个运动中的带电微粒,磁力会使其轨道偏转,并在磁场中做旋转。
And, so when we think of the trajectory of the moving point, that's called a parametric equation.
而当我们考虑运动点的轨迹的时候,轨迹可以称作是参数方程。
So, think of a line as the trajectory of a moving point.
把直线看作运动点的轨迹。
There are also a great way to think about actually any curve, any trajectory that can be traced by a moving point.
当然还有其他的描述动点形成的曲线,或者轨迹的办法。
An iteration method is presented to solve the optimization function for approximating the rotation transformation part of the pseudo moving frame at any position of the motion trajectory.
采用迭代法求解该优化方程来逼近运动轨迹任意处伪活动标架的旋转变换矩阵。
Visual servo system can be used in the control systems of robot original orientation guiding, obstacle avoiding, trajectory tracking and moving object tracking, etc.
视觉伺服可以应用于机器人初始定位自动导引、自动避障、轨线跟踪和运动目标跟踪等控制系统中。
The main task of object tracking is to detect moving object accurate from each image frame, and position those object in the subsequent frames. Then we could get full trajectory of moving object.
运动目标跟踪的主要过程是:在各帧图像中准确的检测出运动目标,然后在后续的图像序列中进行目标定位,从而得到特定运动目标的完整运动轨迹。
Finally filtrating the true targets according to the principle of moving continuity and trajectory consistency of moving target in the image sequences.
最后利用序列图象中目标运动的连续性和轨迹的一致性来筛选出真正的目标。
In this paper, we discussed an algorithm for decision trajectory during detecting slowly moving point target in low SNR.
本文讨论了低信噪比条件下缓动点目标检测技术中候选轨迹的确定算法。
Local trajectory planning is very important for an autonomous vehicle(ALV) in the moving planning of autonomous vehicles, and it is a key technology for an ALV.
在自主车的运动路径规划中,局部路径规划特别重要,而且是自主车的一项关键技术。
According to the moving character of this Robot, kinematic equations is obtained and solved inversely. And also gives the dynamic analysis. In Robot joint space, the trajectory is planned.
根据辐射机器人的运动特性给出了运动学方程的正、反解,并对其作了动力学分析,且在关节空间对其进行了轨迹规划。
According to the moving character of this Robot, kinematic equations is obtained and solved inversely. And also gives the dynamic analysis. In Robot joint space, the trajectory is planned.
根据辐射机器人的运动特性给出了运动学方程的正、反解,并对其作了动力学分析,且在关节空间对其进行了轨迹规划。
应用推荐