telerobot

网络  遥控机器人; 遥操作机器人; 远程控制机器人; 机器人

计算机



双语例句

  1. Actualities and Prospects of Force Telepresence Telerobot Control System
    力觉临场感遥控作业机器人控制系统研究现状和发展
  2. Generalized Predictive Control Scheme for the Internet-based Telerobot Control System
    广义预测控制方法在网络遥操作机器人系统中的应用
  3. Telerobot Predictive Control System with Time Delay Compensation
    具有时延补偿的遥机器人预测控制系统
  4. Research of control method to Internet-based telerobot system based on operator intention analysis
    结合操作者意图分析的Internet机器人控制方法研究
  5. The research on force telepresence technology has been made through establishing a set of threefreedom master-slave telerobot systems.
    通过建立一套3自由度主从式遥控机器人系统研究了力觉临场感技术。
  6. Telerobot data packing algorithm and bluetooth communication
    遥操作机器人数据打包算法及蓝牙通信
  7. Bilateral control of master slave telerobot system with force telepresence
    具有力觉临场感的主从遥控机器人系统的双向控制
  8. Internet-based Telerobot Control System
    基于Internet的遥机器人控制系统
  9. Modeling of Force Sense Virtual Reality in Telerobot System With Telepresence
    临场感遥控作业机器人的力觉虚拟现实建模研究
  10. Telerobot Control System Design Based on Preview/ Predictive Display
    基于预演/预测的遥机器人控制系统设计
  11. Hydraulic remote control of cargo valve Master-slave Position Controller of Electron-hydraulic Servo Telerobot
    货油阀液压遥控装置电液伺服遥操纵机器人主-从位置控制器
  12. In order to resolve the problem of the communication time delay in force telepresent telerobot system, a new idea based on AR ( Auto Regressive) model is presented in this paper.
    为解决力觉临场感遥控机器人系统的时延问题,本论文提出了将预测器引入该系统的新思路。
  13. Research on Master-Slave Telerobot Force Telepresence Technology
    主从式遥控机器人力觉临场感技术的研究
  14. Researching and Developing Strategy of Overcoming Time-delay Infection for Telepresence Telerobot System
    临场感遥操作机器人系统克服时延影响的研究发展策略
  15. Master-slave Position Controller of Electron-hydraulic Servo Telerobot iris setting indicator
    电液伺服遥操纵机器人主-从位置控制器
  16. A real time multitask management system for mobile telerobot
    遥控移动式作业机器人实时多任务管理系统
  17. Research on Telerobot with Force Feedback
    具有力觉反馈的遥操作机器人研究
  18. In succession, three sets of telerobot experiment flat based on internet were described.
    接着,介绍了基于Internet遥操作机器人实验平台的三套方案。
  19. A new signal transmission method for force reflecting telerobot system
    一种新的力反射遥控机器人系统的信号传输方法
  20. Research on internet-based telerobot
    基于Internet的远程控制机器人研究
  21. Network Video Transmission and Synchronization for Telerobot System
    网络遥操作机器人系统视频传输及同步技术
  22. Design of Internet-based Telerobot Controller
    基于互联网技术的远程机器人控制器设计
  23. The algorithm possesses important value for the analysis and design of the control structure and control algorithm in telepresence telerobot system based on virtual reality technology, especially for the design of human-machine interface in the system.
    该算法对虚拟现实临场感遥操作机器人系统控制结构和控制算法的分析和设计,特别是系统中人机接口的设计具有重要价值。
  24. The combination of web and robot control technology gave birth to the concept of web-based telerobot.
    Web技术与机器人控制技术的结合,促成了基于web的远程控制机器人概念的诞生。
  25. Checking and measuring algorithm of virtual dynamics in telerobot system
    遥操作机器人系统中的虚拟动力学检测算法
  26. The vision and force feedback control of the telerobot were realized with TCP/ IP as the transmission/ control protocol and the Client/ Server system structure as the network communication platform.
    系统以TCP/IP为传输/控制协议、以Client/Server-Robot(客户机/服务器)体系结构为网络通讯平台,实现了遥机器人视觉和力觉的反馈控制。
  27. An Internet-based augmented perception telerobot operation system was constructed with Internet as the communication method and the KLD-400 teaching robot of four DOF as controlled unit.
    以Internet网络为通讯手段,以KLD-400四自由度教学机器人为被控单元,搭建了基于Internet的增强感遥机器人操作系统。
  28. And then paper puts forward the overall system structure of telerobot, as well as the brief analysis of the internal composition of the master chip.
    提出了遥操作机器人的总体系统结构,并对主控芯片的内部组成做了简要分析。
  29. So, research on the key techniques of Internet-based telerobot system has significant practical meanings.
    因此对基于Internet的遥机器人系统的一些关键技术展开研究具有重要的现实意义。
  30. The shared telerobot control system was developed adopting modularized structure based on the experimental system that has been established and the method of Intelligent Command Buffer is adopted to reduce the communication delay time.
    针对所搭建的实验系统,采用模块化结构开发了遥机器人共享控制系统,并用IntelligentCommandBuffer的方法来减小传输时延。