模块化可重构机器人的研究扩大了机器人的应用范围。
Research on Modular reconfigurable robot expends the application field of robot.
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。
Reconfigurable modular robot is an intelligentized one that can change its configuration according to variant tasks.
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。
To realize rapid reconfiguration, a reconfigurable modular robot must reconfigure not only the mechanical structure configuration, but also the control system.
本文主要对可重构模块化机器人的模块设计和构形设计的原理以及运动学进行了一些初步的研究。
In the thesis, the principles of modular design and configuration design as well as kinematics design of reconfigurable modular robots will be studied with attempt.
对可重构模块化机器人逆运动学,我们采用局部指数乘积公式和微分运动学公式而建立的逆运动学数学模型。
The inverse kinematics model of reconfigurable modular robots is based on the local product-of-exponential formulas and differential kinematics equations.
随着机器人的应用范围越来越广,机器人的任务和环境事先无法确定,可重构模块化机器人成为在这种任务和环境下工作的应运而生的一种机器人。
With increasing application range of robots, the tasks and the environment of robots' are unpredictable, therefore is the reason the Reconfigurable Modular robots being brought forward.
该方法可应用于具有不同构形的机器人系统,特别适用于可重构模块化机器人的控制。
This method can be applied to robot system with variant configurations, especially for the control of the reconfigurable robot.
该方法可应用于具有不同构形的机器人系统,特别适用于可重构模块化机器人的控制。
This method can be applied to robot system with variant configurations, especially for the control of the reconfigurable robot.
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