Unmanned underwater vehicle

美 [ˌʌnˈmænd ˌʌndərˈwɔːtər ˈviːəkl]英 [ˌʌnˈmænd ˌʌndəˈwɔːtə(r) ˈviːəkl]
  • 网络无人水下航行器;无人潜水器;无人水下机器人;水下无人航行器
Unmanned underwater vehicleUnmanned underwater vehicle
  1. Long-range underwater acoustic communication techniques which applied on unmanned underwater vehicle were introduced in this paper .

    本论文是对无人水下航行器中应用到的远程水声通信技术进行研究。

  2. Development of the Al / H_2O_2 semi-fuel cell used in the unmanned underwater vehicle power batteries

    Al/H2O2作为无人水下航行器动力电池的研究

  3. Analysis of technology status and development trend for unmanned underwater vehicle and its propulsion system

    无人潜水器及其动力系统技术发展现状及趋势分析

  4. Open Architecture : Trend of Torpedo and Unmanned Underwater Vehicle Design

    开放系统&鱼雷和UUV设计的方向

  5. A research on an optical guidance mode for recovery of an unmanned underwater vehicle

    无人水下潜器回收过程中光学引导模式的研究

  6. With the development ocean research and exploitation , the technology of unmanned underwater vehicle has attracted more attention in some countries .

    无人潜水器技术随着海洋研究与开发的发展而逐渐受到各国的关注。

  7. According to the system requirements of unmanned underwater vehicle , the MC-PSK modulation technique was present in this paper , some key techniques were discussed .

    在水声信道分析的基础上,根据远程无人作战平台对水声通信系统的技术要求,提出了基于MC-PSK调制方式的远程水声通信系统方案,讨论了方案实现过程中的几种关键技术。

  8. The research of UUV ( Unmanned Underwater Vehicle ) in the development of oceanic resources plays a vital role , and also has important military significance .

    水下无人航行器(UUV-UnmannedUnderwaterVehicle)的研究在海洋资源开发中扮演了不可或缺的角色,同时也具有重要的军事意义。

  9. With the rapid development of Unmanned Underwater Vehicle ( UUV )' s manufacture craft , traditional design approaches in controller fail to meet engineering demands completely .

    随着无人水下航行器科技水平的发展,经典的控制器设计方法已经不能完全适应现代的工程项目控制需要了。

  10. The structure and characteristics of multiple UUV ( Unmanned Underwater Vehicle ) cooperation system are introduced , the future applications are analysed and the application status abroad is summarized .

    介绍了多UUV(UnmannedUnderwaterVehicle)协作系统的结构和特点,分析了其未来应用前景,并对国外多UUV系统的应用现状进行了综述。

  11. The numerical method and results can also be used for other blunt body-wall interaction cases and near wall moving cases of an unmanned underwater vehicle ( UUV ) .

    对于其他形状钝体的壁面干扰现象,以及水下潜器的近壁面运动,该计算方法和结果亦具有参考价值。

  12. This article first presents the basic situation and development of REMUS and operations and exercises of Fleet Unmanned Underwater Vehicle Unit ( FUUVU ) with REMUS .

    首先介绍了REMUS系统的基本发展情况及舰队无人水下航行体小组操作REMUS进行作战行动、演习的情况。

  13. The aim of the project is to develop a kind of unmanned underwater vehicle which is used to monitor the depth of the fairways under the jurisdiction of the company timely .

    该项目的目的是研制一种小型无人潜水器,对该公司下辖的出海航道的水深情况进行实时监测。

  14. In recent years , mission planning for complex mission plays an important manifestation in the autonomous ability of Unmanned Underwater Vehicle ( UUV ), and it has become a key technology in this area .

    无人水下航行器(以下简称UUV)群体面向复杂作业需求的使命规划作为UUV自主能力的重要体现,已经成为UUV领域研究的关键技术之一。

  15. Design of active collision avoidance system is one of the core issues in the area of no-cable unmanned underwater vehicle ( UUV ) and intelligent underwater vehicle ( AUV ) . The issue stems from an actual R & D projects commissioned by a company .

    主动避碰技术是无人无缆水下航行器(UUV)和智能水下航行器(AUV)研究领域的核心问题之一。本课题来源于某公司委托开发的实际工程项目。