Navigation of mobile robot involves path planning, sensor selection and multisensor fusion, etc.
移动机器人导航涉及到路径规划,传感器的选择及传感器信息的融合等技术。
It is a very important link for autonomous navigation of mobile robot to have an ability in accurate and reliable dead reckoning.
精确可靠的航迹推测是实现移动机器人自主导航的一个极为关键的环节。
Noise is always induced for behavior-based mobile robot when the environmental information is obtained, which affects the navigation of mobile robot.
基于行为的移动机器人在获取外界信息时不可避免地会引入噪声,给移动机器人的导航造成一定的影响。
Visual-aided navigation is one of the hot issues on the navigation of mobile robot, in which the road detection and the vehicle detection are the important visual components.
视觉辅助导航是移动机器人导航的热点之一,其中道路和道路中车辆的检测是视觉导航系统的重要组成部分。
The navigation subsystem of the mobile robot fuses the position estimation obtained by a vision system with the position estimated by odometry using a Kalman filter.
移动机器人的导航子系统利用卡尔曼滤波器,融合由视觉系统与由里程计获得的位置估计值。
The technologies of intelligent mobile robots involve robot navigation and localization, path planning, motion control, etc.
智能移动机器人技术涉及到机器人导航与定位,路径规划,运动控制等。
Through the performance comparison between these spatial representation methods for mobile robot navigation, the advantages and disadvantages of these spatial representation methods are pointed out.
通过对移动机器人导航空间各种表示方法进行性能对比,指出各种空间表示方法的优点与不足。
According to the problem of mobile robot navigation in the unknown environment, a hybrid control method based on hierarchical reinforcement learning (HRL) is proposed.
针对未知环境下的移动机器人导航问题,本文提出了一种基于分层式强化学习的混合式控制方法。
The experimental results show that it can reduce the error of FOG to a great extent and enhance the localization precision of mobile robot navigation.
实验结果表明:该方法大幅度减少了光纤陀螺的误差,从而提高了移动机器人导航定位的精度。
These applications propose higher requirements for the navigation and obstacle avoidance ability of mobile robot.
这些应用对移动机器人导航避障能力提出了更高的要求。
Tests show that the system can resolve the problems of mobile robot, such as the automatical navigation, accurate stopping and positioning, obstacle avoidance, etc.
试验运行表明系统可解决移动机器人的自动导航、停靠站等精确定位和避障的问题。
A navigation control strategy for mobile robot is designed by the tight integration of reflecting behavior, reactive behavior and deliberative module based on distributed system.
采用分布式系统将反射式行为、反应式行为与慎思规划相结合,设计了移动机器人导航控制策略。
At last, CASIA-I mobile robot designed and developed by us is employed to have an experiment in order to testify the validity of the proposed global self-localization and navigation method.
最后,利用我们自行设计和开发的CASIA I移动机器人对所提出的导航策略和导航算法进行了实物实验验证。
Environmental modeling technology is an important research process in the! Navigation study of the autonomous mobile robot.
环境建模技术是自主式移动机器人导航研究中的一个重要环节。
In a word, it is a robust, reliable and real-time approach that can meet the requirement of vision navigation of miniature mobile land robot.
总之,该算法具备较好的鲁棒性,可靠性以及实时性,可以满足小型自主移动地面机器人的视觉导航需要。
Mobile robot navigation is the process of reading, and controlling the movement of a mobile robot from one location to another.
移动机器人导航是阅读的过程,控制移动机器人从一个位置到另一个地方的运动。
It aims at researching and developing an accurate and reliable navigation system for mobile robot and upgrading the intelligence of mobile robot.
旨在研究开发准确、可靠的导航系统,从而提高移动机器人的智能化水平。
The advanced system of positioning and navigation is the concentrated expression of the intelligence of mobile robot.
先进的定位导航系统是移动机器人智能性的集中体现。
Telecontrol navigation is the important part of the system of military mobile robot on the ground.
遥控导航是军用地面移动机器人系统的重要组成。
Autonomous mobile robot localization is one of the most important research branches of intelligent robot. It is the prerequisite to realize robotic navigation.
自主移动机器人定位是智能机器人领域的一个重要研究方向,是实现机器人导航的前提。
This thesis mainly researches the error analysis and correction of the navigation for the area-covering mobile robot.
本文以全区域覆盖移动机器人为研究对象,重点研究导航中的误差分析与校正。
Experiments have shown that the system can extract landmarks stably, achieve high accuracy rate of place recognition and guarantee safety navigation in unknown environments for mobile robot.
实验结果表明该系统路标提取稳定、位置识别率高、定位精确,能够保证机器人在未知环境中的安全导航。
Obstacle detection, according to the robot's environment information, plays an important role in the research of navigation technology for mobile robot.
根据周围环境信息,检测障碍物是移动机器人导航技术研究的一个重要内容。
The technology of positioning and navigation is the very important topic on the research of mobile robot.
定位与导航技术在移动机器人系统研究中占有重要的地位。
The main content of mobile navigation system contains mobile robot localization and path-planning.
移动机器人导航系统主要内容包括移动机器人的定位和路径规划。
In related research of mobile robot, autonomous navigation is not only the key of realizing mobile robot to work, but also the core technology to achieve the real intelligent and autonomous move.
在移动机器人相关研究中,自主导航是实现移动机器人正常工作的关键,也是实现其真正智能化和完全自主移动的核心技术。
Navigation system of wheeled mobile robot based on single chip processor was designed and its work principle and system construction were introduced.
设计了一种基于单片机的轮式机器人导航控制系统,介绍了系统的工作原理和结构。
To achieve the navigation in unknown or uncertain circumstance, mobile robot should have the ability of apperceiving the task circumstance and path planning.
移动机器人要实现在未知和不确定环境下自主的工作,应具有感受作业环境和规划自身动作的能力。
Mobile Robot effective recognition of their work environment, perception and reconstruction, is the autonomous navigation and environment-based exploration Foundation and prerequisite conditions.
移动机器人对其工作环境的有效辨识、感知与重构,是其自主导航与环境探索的基础和前提条件。
Based on the practice of mobile robot vision navigation, the paper presents methods of image segmentation based on color models and object recognition.
基于移动机器人视觉处理的实践,提出了基于颜色模型的图像分割方法。
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