This paper discusses the visualization of ship motion in waves.
研究船舶海浪中运动的可视化技术。
This paper studies the visualization techniques of ship motion in waves.
本文研究船舶海浪中运动的可视化技术。
Visualization of ship motion in waves enables ship architects to understand the ship motion performance more intuitively.
通过采用船舶在海浪中运动的可视化技术,可以使船舶设计人员能够更直观地了解船舶的运动性能。
Finally, the prediction of turning motion of the ship in regular waves is made and the factors which affect the motions are discussed.
最后,预报了船舶在规则波中的回转运动,对一些影响回转运动的因素进行了讨论。
The effect of velocity on the longitudinal motion of SWATH ship in irregular waves is researched.
分析了航速对SWATH船在不规则波中迎浪纵向运动响应的影响规律。
The drifting problem emerged when solving the horizontal motion responses of a ship traveling in the oblique waves in the time domain, which used to annoy the engineers for many years.
在采用时域方法求解斜浪中船舶的水平运动响应时,计算中出现的横向“漂移”现象一直是困扰工程师们的难点。
This paper investigates the turning motion of a twin propeller twin rudder ship in regular waves.
本文研究了双桨双舵船在规则波中的回转运动。
Because ship rolling is the heaviest motion of a ship in waves, it is important to study ship rolling modeling and prediction in order to improve ship's seaworthiness and wave-resistance.
船舶横摇运动是对船舶航行影响最大的运动,研究船舶横摇运动的建模与预报对于提高船舶适航性、耐波性有重要意义。
Because ship rolling is the heaviest motion of a ship in waves, it is important to study ship rolling modeling and prediction in order to improve ship's seaworthiness and wave-resistance.
船舶横摇运动是对船舶航行影响最大的运动,研究船舶横摇运动的建模与预报对于提高船舶适航性、耐波性有重要意义。
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