船用隔水管振动主动控制

N. Shaharuddin, I. Darus
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引用次数: 15

摘要

为防止海上立管发生共振,提出了一种主动振动控制策略。将以往研究收集的实验数据作为系统辨识的输入输出数据。采用最小二乘法(LS)和递推最小二乘法(RLS)对立管在特定速度下的动态响应进行建模。提出并实现了一种自整定PID控制算法来抑制立管的振动。研究表明,RLS在系统建模方面具有优势,其均方误差最低为0.0062。随后,利用RLS辨识技术得到的传递函数,在Matlab SIMULINK环境下,利用迭代学习算法(ILA)开发PID主动振动控制器(PID - AVC)。实验验证了迭代学习PID - AVC控制器抑制隔水管涡激振动的能力和鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Active vibration control of marine riser
This paper presents an active vibration control strategy in order to prevent resonance occurrence in marine offshore vertical riser pipe. Experimental data collected by previous research are used as an input - output data for system identification. Both Least Squares (LS) and Recursive Least Squares (RLS) methods are employed to model the dynamic response of the riser pipe at a particular speed. An auto-tuned PID controller algorithm is developed and implemented for suppression of the riser pipe's vibration. The research revealed the superiority of RLS in modeling the system with the lowest mean squared error of 0.0062. Later, the transfer function obtained by RLS identification technique was utilized within Matlab SIMULINK environment for development of the PID active vibration controller (PID - AVC) using Iterative Learning Algorithm (ILA). The iterative learning PID - AVC controller's capability in suppressing the vortex induced vibration for marine riser and its robustness was tested, verified and proven.
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