1) autonomous underwater vehicles
自主式水下船
2) Autonomous underwater vehicle
自主式水下潜器
1.
A review of the development and research of autonomous underwater vehicles;
自主式水下潜器研究开发综述
2.
Global path planning problem for autonomous underwater vehicle(AUV) based on large-scale chart data is investigated by using ant colony optimization(in shorts,ACO) algorithm.
在大范围海洋环境中,应用蚁群算法对自主式水下潜器(AUV)的全局路径规划问题进行了研究。
3.
The simulation system for navigation of autonomous underwater vehicle (short for AUV) was developed with Visual C++ based on Windows platform.
基于Windows网络平台用VC++语言开发出了自主式水下潜器(简称AUV)导航仿真系统,论述了仿真系统的体系结构、网络通信和数据交换;详细介绍了仿真系统中运动载体计算机和导航设备计算机的软件实现方法和关键技术;对重力匹配和地形匹配算法也作了相应的介绍;对仿真平台进行了仿真验证分析。
3) autonomous underwater vehicle(AUV)
自主式水下航行器
1.
The autonomous underwater vehicle(AUV) is a complex intelligent electromechanical system to carry out different types of missions in the complex ocean environment.
自主式水下航行器是一个复杂的智能化机电系统,是能够在复杂的海洋环境中自主执行各种任务的无人平台。
2.
Autonomous underwater vehicle(AUV) contains a load and a launcher.
自主式水下航行器(AUV)可视为载荷和运载体组成的一个多体系统,在载荷释放时必须保证分离后载荷不能与运载体发生碰撞。
3.
Autonomous underwater vehicle(AUV) is a multi-body system composed of a load and a carrier.
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。
4) autonomous underwater vehicle
自主式水下航行器
1.
A new method of load separation from the head of AUV(autonomous underwater vehicle) was proposed.
携带正浮力载荷的自主式水下航行器(AUV)是由正浮力载荷和运载体组成的一个多体系统,在载荷释放时必须保证载荷不能与运载体发生碰撞。
2.
According to the Dempster-Shafer evidence theory, which can well express the “indefinite” & “unknown”, method and rule was presented to establish a basic probability assignment function to autonomous underwater vehicle(AUV) scansonar and underwater vidicon vision sensors of after the performance of different types of algorithms of data fusion.
根据D2S证据理论能很好表示“不确定性”和“不知道”的特点,对比不同的数据融合算法,在分析D2S证据理论的性能特点基础上,提出了一种基于自主式水下航行器的扫描声纳和水下摄像机两种视觉传感器采集信息的基本概率分配函数的方法和规则,并且分析了自主式水下航行器上的扫描声纳和水下摄像机这两种视觉传感器的信息在目标位置求解中的应用,同时利用Dempster合并规则,分析计算这两种视觉传感器在自主式水下航行器进行目标类别识别时的合成融合值。
3.
AUV is highly nonlinear and time-varying hydrodynamic performance, accurate hydrodynamic coefficient is on the basis of high-performance controller, this paper on autonomous underwater vehicle hydrodynamic coefficients of the numerical study of great theoretical significance and practical value.
自主式水下航行器是一种可以由水面舰艇、潜艇、飞机等各种作战武器搭载的无人无缆水下航行器。
5) AUV
自主式水下航行器
1.
This paper makes a study of the 6 degrees of freedom(6DOF) motions of autonomous underwater vehicles(AUV) ,and employs Newtonian approach and Lagrangian approach to derive the simulation vector model of the 6DOF motions suited for the Simulink .
在对自主式水下航行器的空间六自由度运动进行研究的基础上,用牛顿力学方法和拉哥朗日方法推导了适于在Simulink环境下仿真的空间运动矢量模型,并建立了可移植性和功能强大的自主式水下航行器的空间六自由度运动仿真模块,解决了耦合非线性运动方程解算难、仿真难和显示难的问题,为自主式水下航行器及其它的高科技飞行器的研究和设计提供了便利的工具。
6) autonomous underwater vehicle
自主式水下机器人
1.
In order to insure that autonomous underwater vehicle completes the tasks successfully in unstructured and hazardous oceanic environment with the high pressure and low visibility, an efficient and effective fault-tolerant control system becomes imperative for AUVs.
为保证自主式水下机器人在高压、可见度差的未知海洋环境下顺利完成作业任务,必然要求水下机器人具有容错控制能力。
2.
The autonomous control system of autonomous underwater vehicle(short for AUV)is very important for safty and validity of mission execution.
自主控制系统对于自主式水下机器人(简称 AUV)使命执行的安全性和有效性至关重要。
补充资料:泗水潜夫
1.宋周密的别号。泗,多写作"四"。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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