1.This article finished the overall conceptual design of the latent Unmanned Underwater Vehicle (UUV) and introduced the portion of it.
对潜伏式无人水下航行器进行了概念设计,介绍了本航行器的组成部分。
2.This platform also have open features, the next generation underwater vehicle guidance can be easily integrated.
此平台还具有开放性特点,可以方便地集成下一代水下航行器制导软件。
3.Some oceanographers have started to use another sort of underwater vehicle that is capable of much greater endurance.
一些海洋学家已经开始使用另一种更具持续力的水下航行器。
4.Thanks to its advantages on effective work range and positioning accuracy, it is widely applied in underwater vehicle development.
由于水声定位技术在作用距离、定位精度等方面远优于其它手段,因而在水下机器人的研制和使用中得到广泛的应用。
5.The experimental results could provide a basis for structural design of a supercavitating underwater vehicle.
实验结果可为超空泡水下航行体的结构设计提供依据。
6.A mathematical maneuvering model of a new type of underwater vehicle for pipeline detection and maintenance was presented.
针对一种用于海底管线检测与维修的新型潜水装置建立了操纵运动数学模型。
7.The research results show that the dish-shaped underwater vehicle has good resistance characteristics and maneuverability.
研究结果表明,碟形潜水器具有良好的阻力性能和操纵性能。
8.Also, the author presents some progresses in general acoustic design of the underwater vehicle achieved in recent years.
作者还简要介绍了近年来水下航行器总体声学设计技术方面的进展。
9.The trajectory planning of underwater vehicles and manipulator is important for the operation of underwater vehicle.
水下机器人及机械手的轨迹规划对机器人的作业有重要意义。
10.The underwater vehicle machinery noise source recognition features that the training samples is limited and have abrupt noise samples.
水下航行器的噪声源识别具有训练样本有限,存在偶发或突变噪声源等特点。