水下运载器智能对接装置是水下救生的主要装备。
The intelligent mating apparatus of underwater carrier is the main vehicle to rescue submarines.
无人水下运载器在21世纪的任务去用于小规模的,接近滨海环境突发地方冲突。
The role of the UUV in the 21st century is to be used in small-scale, short regional conflicts in a close littoral environment.
提出了一种完全新型的旋转式水下运载器的系统结构,简要介绍了系统的工作原理,设计了模糊控制器。
This paper introduces a new type of spinning underwater vehicle with detailed il-lustration of its system structure and working principles and offers the design of a fuzzy con-troller.
利用捷联惯导(SINS)、GPS定位系统和多普勒计程仪(DVL)进行组合导航是水下运载器导航定位的有效方式。
It is an effective way in integrated navigation by using Strapdown Inertial navigation System (SINS), GPS and Doppler Velocity Log (DVL).
针对不同作业要求和运载器接口,研制水下安装、探测、救捞等专用作业工具,或者提供相关服务。
For different operating requirements and vehicle interface, develop underwater installation, detection, rescue and salvage operations tools, or provide service.
自主式水下航行器是由载荷和运载体组成的一个多体系统。
Autonomous underwater vehicle (AUV) is a multi-body system composed of a load and a carrier.
海洋空间智能无人运载器是指智能水面无人艇(USV)、智能水下机器人(AUV)和无人水下机器人(UUV)。
Ocean space intelligent unmanned vehicles include the intelligent unmanned surface vehicle (USV), the autonomous underwater vehicle (AUV) and unmanned underwater vehicle (UUV).
这一个区域将会被使用去储存无人水下航行器而且其它遥控操作运载器(ROV),连同他们的设备界面一起-举例来说,通信和控制电缆轴。
This area will be used to store UUVs and other Remotely Operated Vehicles (ROVs), together with their interface equipment - for example, communications and control cable reels.
自主式水下航行器是由载荷和运载体组成的一个多体系统。
Simulation of Autonomous Underwater Vehicles Formation Control Based on Simulink and VRML;
自主式水下航行器是由载荷和运载体组成的一个多体系统。
Simulation of Autonomous Underwater Vehicles Formation Control Based on Simulink and VRML;
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