船舶在波浪上纵向运动与控制研究综述

Review of longitudinal motion and controls of ships on waves

  • 摘要:
      目的  随着全球经济和科技的发展,智能化是船舶发展的必然趋势。将自动控制用于船舶航态控制系统以达到改善其水动力性能的目的是当前的研究热点。
      方法  首先综述国内外关于船舶运动算法的研究,然后介绍附体减摇系统控制信号的研究,在此基础上进一步总结基于运动计算结果的附体控制方法的发展,最后介绍关于纵向减摇模型试验的发展现状。
      结果  分析表明:引入主动控制程序后减摇附体可以减少纵向运动响应多达60%,比被动控制下的减摇效果提升20%以上;理论上采用基于鲁棒控制和预测控制的主动控制系统的减摇效果要好于传统PID控制系统,但是由于PID系统具有简单直接的优点,模型试验研究还是基于PID控制为主。
      结论  因此,在实际应用中将鲁棒控制或预测控制引入附体控制系统是智能船舶研究的重要发展方向之一。

     

    Abstract:
      Objectives  With the advancement of the global economy and science, intellectualization is the inevitable trend of ship development. Applying active controls to a ship's ride control system for the purpose of improving hydrodynamic performance is a current research emphasis.
      Methods  First, the study of the algorithm of ship's motion is summed up, then the input signal of appendage is analyzed, and the development of the appendage's control method based on the calculation result of the motion is further summarized on this basis. Finally, the development status of longitudinal damping appendage's model test is summarized.
      Results  The analysis shows that the longitudinal motion response is reduced up to 60% by the appendages, and the anti-longitudinal motion effect is improved by more than 20% compared with passive control. In theory, the active control system based on robust control and predictive control has a better longitudinal attenuation effect than the traditional PID control system. However, the research of the model test is mainly based on PID control due to its simplicity and directness.
      Conclusions  Introducing robust control or predictive control into the practical application of appendage control systems is one of the most important development directions of intelligent ship research.

     

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