Configuration design is an important content of reconfigurable modular robot design.
构形设计是可重构模块化机器人设计的重要内容之一。
This paper presents a method for modular robot joints that integrate mechanical part and control system.
提出了一种集机械和控制为一体的机器人模块化关节的设计方案。
Reconfigurable modular robot is an intelligentized one that can change its configuration according to variant tasks.
可重构机器人是一种模块化的,并能根据不同任务需要改变构形的智能化的机器人。
The article introduces the modular robot and design of some modules including multiple degree of freedom arm, automatic centering wrist and flexible hand.
本文引入了模块机器人的概念,并介绍了多自由度手臂、自动对中手腕及柔性手的设计要点。
To realize rapid reconfiguration, a reconfigurable modular robot must reconfigure not only the mechanical structure configuration, but also the control system.
为了实现快速重构,可重构模块化机器人不仅要实现机械结构构形的快速重构而且要实现控制系统的快速重构。
A reconfigurable modular robot is the one assembled based on a set of modules selected from the predefined modular platform in order to accomplish certain tasks.
可重构机器人是基于一套事先设计好的模块,并根据特定任务的要求选择的一组模块装配成的机器人。
The wireless communication system is an important part in the closed loop control system of modular robots, the correspondence between computer and robot is realized by the bluetooth module.
基于蓝牙的无线通信系统是模块化机器人闭环控制系统的一个重要组成部分,上位机与机器人之间的通信通过蓝牙模块来实现。
In this paper, we try to do so some research work on algorithms of robot path planning and those of modular self-reconfigurable robots 'locomotion planning with cellular automata.
本文主要对元胞自动机在移动机器人的路径规划和模块化自重构机器人的运动规划中的应用进行了探索和研究。
The four-legged walking of modular reconfigurable robot is planned emphasis in this thesis. The motion planning method is on the base of kinematics calculation.
本文重点对模块化可重组机器人四足步行运动进行规划,采用基于运动学计算的规划方法。
To solve thee problem of robots' weak adaptability to various environmental conditions, a modular multi-legged walking robot system was developed.
为解决机器人对复杂多变的环境适应性不强的问题,研制了模块化的多足步行机器人系统。
Motion planning is one of the key techniques for the research of modular reconfigurable robot, whose motional function is affected by planning better or not directly.
运动规划是模块化可重组机器人研究的关键技术之一,规划得合理与否,将直接影响到该机器人的运动性能。
In accordance with 863 key projects "Modularized Universal Architecture of robot", in this dissertation, we gave the definition of vision platform modular concept for the intelligent service robot.
本文根据863重点项目“机器人模块化体系结构设计”,提出智能服务机器人的模块化视觉平台设计研究。
Research on Modular reconfigurable robot expends the application field of robot.
模块化可重构机器人的研究扩大了机器人的应用范围。
In this paper, a novel approach to inverse kinematics solution for a 9 DOF modular reconfigurable robot produced by German AMTEC corp.
本文针对德国AMTEC公司生产的一种9- DOF模块化机器人提出了一种新颖的运动学反解方法。
Modular Self-Reconfigurable Robot(MSR) is a multi-robot system that composited by many intelligent modules.
模块化自重构机器人是一种由许多智能模块组成的多机器人系统。
In this paper, a novel approach to inverse kinematics solution for a 9 DOF modular reconfigurable robot produced by German AMTEC corp. is proposed.
本文针对德国AMTEC公司生产的一种9- DOF模块化机器人提出了一种新颖的运动学反解方法。
According to the modular design of the snake-like robot to complete the structural design, and the corresponding parts of the three-dimensional model.
依据模块化的设计思想完成了蛇形机器人的结构设计,并建立了相应零件的三维模型。
The longitudinal joint has simple structure, great output moment, small size and high precision and is one ideal universal modular and standard robot joint.
本纵关节具有结构简单,输出力矩较大,尺寸小,精度高的优点,是一种理想的机器人通用的,模块化的、标准的关节。
A modular system of the reconfigurable robot is designed, the system consists of running modules, link modules, joint modules, the end of implementation modules and other subsystems.
设计了一个可重构机器人模块系统,该系统由行走模块、连杆模块、关节模块、末端执行模块等子系统组成。
A new reconfigurable modular of snake robot was presented.
提出了一种新型蛇形机器人机构。
We present a modular distributed control system for modular reconfigurable robot because traditional control systems are not fit for it.
传统的机器人控制系统不适合模块化可重组机器人,本文为它构建了适合其特点的控制系统——模块化分布式控制系统。
We present a modular distributed control system for modular reconfigurable robot because traditional control systems are not fit for it.
传统的机器人控制系统不适合模块化可重组机器人,本文为它构建了适合其特点的控制系统——模块化分布式控制系统。
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