minimum ship manoeuvring speed

基本解释最小船舶操纵速度

网络释义

1)minimum ship manoeuvring speed,最小船舶操纵速度2)minimum control speed,最小操纵速度3)Shiphandling,船舶操纵4)ship handling,船舶操纵5)ship steering,船舶操纵6)ship maneuverability,船舶操纵

用法和例句

First the related condition which causes the non symmetric thrust flight and the control method under the circumstances of the non symmetric thrust flight are stated, the relationship between the non symmetric thrust flight and the minimum control speed is pointed out.

首先 ,叙述了发生不对称推力飞行的条件 ,在不对称推力飞行条件下的操纵方法 ,以及和最小操纵速度的关系。

It also explains the occasion of preventing collisions and the shiphandling for the crossing vessels.

根据国际海上操纵与避碰规则与航海实践经验,介绍交叉相遇局面中两船的责任划分,并对两船的避碰时机以及船舶操纵加以说明。

Based on the above views, a simulating platform is established in shiphandling simu.

为了对大型船舶进出大连港香炉礁航道及出坞船旋回掉头靠泊作业进行船舶操纵方案论证及船舶通航安全评估,应用日本MMG分离建模方法,建立了大型船舶操纵运动的仿真模型,给出了电子海图中相关的坐标转换算法。

Based on the analysis of marine transport system formed by environment, ship & man, the shiphandling simulation and evaluation of marine safety and efficiency are described, which are illustrated by two examples.

在分析了航行环境,船舶与人构成的运航系统的基础上,介绍了船舶操纵模拟研究的方法与反映航行安全与效率的评判指标。

Stopping maneuver which must be in whole control by shipmen is an complex question in ship handling and can be of real significance in practice.

制动机动是船舶操纵运动中一个比较复杂而有重要实践意义的课题,舰船驾驶员必须充分掌握舰船的制动机动性能。

The constitution of the training system for ship handling was introduc ed.

介绍了船舶操纵训练系统的构成 ,该系统使用多通道视频拼接的方法生成 360°视景 。

After introducing the architecture of the ship steering simulation system, this paper focuses on three parts of the system, the designment of the whole system, the implementation of the 3D view model, and the display of the 3D view.

在介绍船舶操纵训练系统视景的体系结构基础上,提出系统的整体设计,三维场景的建模的实现方法,以及三维场景的显示,最后重点介绍多分辨率模型的策略选择和多分辨率模型的平滑过渡解决方法。

After introducing the architecture of the view sub system of the ship steering simulation system,this article focuses on the requirements of the synchronization of multi-channel views and its implementation technologies,which include multi-thread structure,dead-reckoning,and etc.

在介绍船舶操纵训练系统视景的体系结构基础上,提出视景多通道同步的要求及其技术实现,采用多线程的结构以及推算定位等技术实现多通道同步,使通道帧数差在2帧以内,各通道的产生的画面就感觉是同一时刻、同一视点产生的。

A fuzzy controller for ship steering based on RBF networks and genetic algorithms is designed.

设计了一种基于 RBF网络和遗传优化的船舶操纵模糊控制器。

The studies on comprehensive assessment of ship maneuverability;

船舶操纵性综合评价方法的研究

advanced ship's operation control system

先进船舶操纵控制系统先进船舶操纵控制系统

Investigation and Predict of Container Ship s Maneuverability;

集装箱船舶操纵性能理论分析与预报

Research on the Sub System of Tug in Ship Handling Simulator;

船舶操纵模拟器中拖轮子系统的研究

Study on the Maneuvering Indices of Ship Equipped with Fin Stabilizers

装置减摇鳍船舶操纵性指数测定研究

Prediction of Ship Maneuverability Based on CFD Method

基于CFD方法的船舶操纵性能预报

Modeling of Ship Manoeuvring Motion Based on Ridge Regression

基于岭回归方法的船舶操纵运动建模

System Analysis of KONGSBERG Full Mission Ship Handling Simulator

KONGSBERG大型船舶操纵模拟器的系统分析

The drift angle greatly affects ship monoeuvres, especially when navigating in and out of the harbour.

漂流角对船舶操纵,特别是对靠离码头的船舶有重要的影响。

Research on Evaluation of Ship s Real-time Voyaging Risk in Ship Handling Simulator;

大型船舶操纵模拟器船舶航行危险性实时评价的研究

Study on Fuzzy and Neural Network Control System for Ship Steering;

船舶操纵运动模糊神经网络控制系统研究

A Numerical and Experimental Research on the Viscous Hydrodynamic Forces Acting on a Ship in Manoeuvring Motion;

船舶操纵运动粘性水动力数值与试验研究

Research on the Technology of 3D Image Modeling in Ship Handling Simulator;

船舶操纵模拟器三维视景建模技术研究

Study on Ship Maneuvering Motion Simulation with Intelligent Technology Applications;

船舶操纵运动模拟和智能技术的应用研究

Numerical Simulation of Ship s Maneuvering Motion in the Wind, Wave and Current;

风浪流作用下船舶操纵运动的仿真计算

Structure and Design of Bridge Console of Large Scale Shiphandling Simulator;

大型船舶操纵模拟器控制台的结构与设计

Research on Feasibility of Azimuth Measuring by Compass in Ship Handling Simulator;

船舶操纵模拟器罗经测向的可行性研究

The Practical Research on 3-D Scene in the Ship Handling Simulator;

船舶操纵模拟器三维视景的实用化研究

Fuzzy Adaptive Control and Its Application for Ship Steering;

模糊自适应控制及其在船舶操纵中的应用