To control a wheel mobile robot, a plane eddy sensor which is used to detect road-mark is developed.
为了控制轮式移动机器人的行走,研制了一种平面涡流式轨道检测用传感器。
A four-wheel mobile robot driving with two motors is designed, and three stages are taken to develop the robot body.
本论文设计了双电机驱动的四轮移动机器人,并分三步进行机器人本体的开发。
This research is mainly addressed on solving the weld seam tracing problems existing in design of wheel mobile robot based spherical tank welding robot.
主要研究以轮式移动机器人为本体的球罐焊接机器人的焊缝跟踪问题。
To control a wheel mobile robot, a plane eddy sensor which is used to detect road-mark is developed. it's construction, working principle and experimental results are reported.
为了控制轮式移动机器人的行走,研制了一种平面涡流式轨道检测用传感器。并介绍了该传感器的构造、工作原理及实验结果。
Aiming at the moving requests of miniature mobile robot on unstructured environment, a wheel-legged robotic platform with multi-configuration was developed.
针对非结构化环境对小型移动机器人的运动要求,设计了一种具有多驱动模式的轮腿式机器人。
A wheel-legged structure with insectival leg configuration in a ground mobile robot was presented in order to improve the terrain adaptability and obstacle climbing capability of the robot.
为了提高地面移动机器人的地面适应性和越障能力,通过模仿昆虫的腿形,在移动机器人机械本体上设计了一种轮式腿结构。
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。
The mathematical model of the four-wheel driving mobile robot is established, which includes kinematical model, dynamic model and motor model.
本论文建立了四轮驱动式移动机器人的数学模型,其中包括运动学模型、动力学模型和电机模型。
Furthermore, the implementation platform of a two-wheel driven mobile robot is developed to perform the real-time trajectory tracking algorithms, and the experiment res…
然后在研制的非完整两轮驱动移动机器人的实验平台上对该算法进行了实时轨迹跟踪实验,结果表明了该非线性跟踪控制算法的有效性。
Furthermore, the implementation platform of a two-wheel driven mobile robot is developed to perform the real-time trajectory tracking algorithms, and the experiment res…
然后在研制的非完整两轮驱动移动机器人的实验平台上对该算法进行了实时轨迹跟踪实验,结果表明了该非线性跟踪控制算法的有效性。
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