flying robot

英 [ˈflaɪɪŋ ˈrəʊbɒt] 美 [ˈflaɪɪŋ ˈroʊbɑːt]

网络  飞行机器人

计算机

双语例句

  1. From the viewpoint of the fast development of communication lines and electric power lines, the idea of using the rotary-wing UAV as the flying live-line inspection robot was presented.
    针对通讯线路和电力传输线快速发展的趋势,提出使用旋翼直升机作为飞行式巡线机器人的设想。
  2. Research on Trajectory Generation for Flying Robot for Overhead Powerline Inspection
    电力线路巡检飞行机器人轨迹生成方法研究
  3. This paper concentrates on the research on trajectory generation of flying robot for overhead powerline inspection.
    本文研究了电力线巡检飞行机器人轨迹生成方法。
  4. Research on Motion Planning of Flying Robot for Overhead Powerline Inspection Based on Dynamic Model
    基于动力学模型的电力线巡检飞行机器人运动规划
  5. Study on Three Dimensional Predictive Simulation System of Teleoperation for Free Flying Space Robot
    自由飞行空间机器人遥操作三维预测仿真系统研究
  6. And has analysed the demand of flying control system of four-rotor flying robot, the operation principle of piezoelectric oscillation gyro, as well as the soft& electro circuit design for the application.
    分析了碟形飞行器对飞行控制系统的要求,角速率陀螺的工作原理,以及角速率陀螺在碟形飞行器中的软硬件设计。
  7. The Development and Test on Wing Type of A Bionic Flying Micro-robot
    仿生扑翼飞行机器人翅型的研制与实验研究
  8. Secondly, it discusses the status of free flying space robot from basic theory and ground tested and space experiment system.
    其次,分别从基本理论、地面实验平台和空间实验系统三个方面阐述了自由飞行空间机器人的研究现状。
  9. Dual arm Free flying Space Robot Autonomous Control System Simulation
    双臂自由飞行空间机器人自主控制系统仿真
  10. This paper focuses on the design scheme of ground tested system on ground for dual arm free flying space robot, which can capture the floating target autonomously in an artificial micro gravity environment.
    本文主要讨论在地面上模拟的空间微重力环境下能够自主捕捉目标的双臂自由飞行空间机器人地面实验平台的系统设计方案。
  11. Research summarizing of free flying space robot
    自由飞行空间机器人研究综述
  12. Dual Arm Coordinate Motion Planning of Free Flying Space Robot Based on Parameter Estimated
    基于参数估计的自由飞行空间机器人双臂协调运动规划算法
  13. Free flying/ floating space robot and flexible space robot, which possess very complex dynamics, gather some difficult problems with flexible link, kinematic redundancy, nonholonomic etc.
    自由飞行/飘浮空间机器人及柔性臂空间机器人动力学行为复杂,集中体现了臂杆柔性、运动学冗余、非完整性等难点问题。
  14. This paper presents a new method of identifying the mass of free flying space robot body using multilayer feedforward neural network based on its attitude disturbance characteristic.
    根据空间机器人姿态干扰特性,本文提出了利用多层前向神经网络来辨识自由飞行空间机器人本体质量的算法。
  15. The simulation of a dual arm free flying space robot that captures a target under the artificial micro gravity environment is discussed.
    本文主要介绍了在地面上模拟的空间微重力环境下双臂自由飞行空间机器人捕捉目标的实验。
  16. To achieve real-time communication between workstations of the ground test system for dual-arm free flying space robot, simulating a dual-arm free flying space robot captures a target satellite, real-time network supervise system based on TCP/ IP protocol has been developed.
    为了实现自由飞行空间机器人地面实验平台系统中各工作站之间的实时通讯,模拟自由飞行空间机器人操作目标卫星的过程,开发了基于TCP/IP协议的网络实时监控系统。
  17. Research and Producing on an Assembly and Animation of a Kind of Bionic Flying Robot
    一种仿生飞行机器人装配及运动动画的研究与制作
  18. Research on Path Planning Method of Flying Robot for Overhead Powerline Inspection
    架空电力线路巡检飞行机器人路径规划研究
  19. The research on free flying space robot is introduced in this paper.
    本文对自由飞行空间机器人的研究进行了介绍。
  20. The Free Flying Space Robot is one of the active fields in nowadays intelligent robot research. In order to research the movement control and the problems of gesture programming when the robot is in free flying state, we designed the ground experiment platform.
    自由飞行空间机器人是当前智能机器人研究中很活跃的领域,为了研究机器人在自由飞行状态下的运动控制及姿态规划问题,我们设计了地面实验平台。
  21. Coordinated motion control of free flying space robot system
    自由飞行空间机器人系统的协调运动控制
  22. The program in the paper has been in better application to flying vehicle dynamics and robot dynamics, etc..
    该程序已在飞行器动力学、机器人动力学等方面取得了较好的应用。
  23. A method to generate a continuous smooth path for flying robot for overhead powerline inspection ( FROPI) is suggested.
    研究了一种利用对称缓和曲线生成电力线路巡检飞行机器人平滑轨迹的方法。
  24. Firstly, it discusses the concept and usage and motion characteristics of free flying space robot.
    首先,论述了自由飞行空间机器人的概念、用途和运动特性。
  25. The micro flying robot with flapping wings is a bionic flying vehicle, which would find its extensive application for military and civilian purposes. At present, it has become a very active area of research in the world.
    微型拍翅式飞行机器人是一种仿生飞行的飞行器,其在军事上和民用上均具有广阔的应用前景,它已成为目前国际上的研究热点之一。
  26. In the future, FFSWR ( Free Flying Space Welding Robot) will inevitably substitute for astronauts 'welding work outside cabin because it can greatly reduce the dangerous coefficient and the cost of operation outer space as well as safeguards astronauts' safety and so on merits.
    自由飞行空间焊接机器人因能大大减小太空操作的危险系数,降低太空作业的成本以及保障宇航员人身安全等优点,今后势必将取代宇航员的舱外焊接作业。
  27. For the flexible structure wing, a motor-driven crank rocker mechanism is designed, which can be used in manufacturing the grand flying robot.
    设计了一个电机驱动的曲柄摇杆机构,驱动柔性结构翅,利用该机构制作出大比例飞行样机,指出该机构微型化比较困难。
  28. Secondly, the improved particle swarm optimization for flying robot for overhead powerline inspection is used to resolve the global path planning issue.
    其次,采用一种基于改进粒子群算法的路径规划方法实现了飞行机器人的全局路径规划方法。
  29. Thirdly, a trajectory generation method for flying robot for overhead powerline inspection based on the MDP model is researched.
    再次,在马尔可夫(MDP)模型的基础上研究了一种电力线路巡检飞行机器人的轨迹生成方法。
  30. Flying robot is a challenging, pioneering and interdisciplinary research topic.
    飞行机器人是一个极具挑战性的多学科交叉的前沿性研究课题。
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