讨论了模糊逻辑算法在履带式移动机器人上的实用性。
Discuss the practicability of applying the fuzzy control theory in the tracked mobile robot.
因此,研究履带式移动机器人的智能控制具有重要的意义,而路径规划和跟踪控制是机器人研究中的关键技术。
Hence it has important sense to research intelligence control of tracked mobile robot, path planning and path tracking is key technology in robot research.
即主要由履带式行走机构和五自由度机械臂组成,着重对履带式移动机器人的行走能力做了详细的计算和校核。
The Robot is consisted of track vehicle and five freedom degree manipulator. It 'motion ability is analysed by calculation and checking.
对履带式移动机器人的平面运动进行了运动学分析,采用滑移转向方法对履带式移动机器人转向进行了动力学分析。
The planar motions of the tracked mobile robots are analysed in Kinematics, and skid steering has been adopted to analyse the steering of robots in dynamics.
针对履带式移动机器人差动驱动的特点,提出了机器人运动控制系统的实现方案,并给出了相应的软、硬件设计方案。
A motion control system, specifically fit the differential drive nature of the tracked mobile robots, has been proposed, and corresponding design for both software and hardware are also given.
文中所设计的履带式移动机器人采用差动式驱动结构,实验证明,比传统的带转向轮的移动机器人更容易实现其转向控制。
This caterpillar track mobile robot use differential drive structure, which makes it easier than tradition method to carry out steering control.
本文以履带式移动机器人为研究对象,以TMS320F 2812为系统核心,构建了履带式移动机器人的运动控制系统。
A tracked mobile robot has been investigated in this paper, and TMS320F2812 is used as system core to build its motion control system.
履带式移动机器人不同于一般的轮式移动机器人,它能通过各种复杂的地形,并且可以工作在恶劣的环境下,代替人完成执行一些具有危险性的工作。
Tracked mobile robot is different from the wheeled robot, it can pass all kinds of complex terrain, and can work in execrable environment, instead of the people to complete the dangerous work.
履带式移动机器人不同于一般的轮式移动机器人,它能通过各种复杂的地形,并且可以工作在恶劣的环境下,代替人完成执行一些具有危险性的工作。
Tracked mobile robot is different from the wheeled robot, it can pass all kinds of complex terrain, and can work in execrable environment, instead of the people to complete the dangerous work.
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