Design of Dynamic Positioning Control System for an ROV with Unknown Dynamics Using Modified Time Delay Estimation

International Journal of Maritime Technology Pub Date : 2019-03-01 DOI:10.29252/IJMT.11.53

Alireza Hosseinnajad, M. Loueipour

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引用次数: 5

Abstract

Article History: Received: 31 Oct. 2018 Accepted: 27 Feb. 2019 In this paper, a control system is designed for dynamic positioning of an ROV with unknown dynamics, subject to external disturbances using passive arm measurements. To estimate uncertain dynamics and external disturbances, a new method based on time delay estimation (TDE) is proposed. The proposed TDE, not only maintains the advantages of conventional TDE, but also eliminates its sensitivity to sensor noise and fast-varying external disturbances which in turn, results in smooth control signal. The proposed control system is considered as a nonlinear PD-type controller together with feedforward of estimated dynamics and disturbances. This structure presents good performance against uncertainties and external disturbances which is guaranteed via stability analysis presented. To evaluate the performance of proposed TDE, simulations are conducted and comparison are made with conventional TDE. Besides, the performance of the proposed control system is compared with conventional time delay controller (TDC) and PID controller to verify its performance. Simulations show high accuracy and superior performance of the proposed control system.

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基于改进时延估计的未知动力学ROV动态定位控制系统设计

文章历史：接收时间：2018年10月31日接受时间：2019年2月27日本文设计了一种控制系统，用于在被动臂测量受到外部干扰的情况下，对具有未知动力学的ROV进行动态定位。为了估计不确定动力学和外部扰动，提出了一种基于时延估计的新方法。所提出的TDE不仅保持了传统TDE的优点，而且消除了其对传感器噪声和快速变化的外部干扰的敏感性，从而产生平滑的控制信号。所提出的控制系统被认为是一个非线性PD型控制器，同时具有估计的动力学和扰动的前馈。该结构具有良好的抗不确定性和外部干扰性能，并通过稳定性分析得到保证。为了评估所提出的TDE的性能，进行了仿真，并与传统TDE进行了比较。此外，将所提出的控制系统的性能与传统的时滞控制器（TDC）和PID控制器进行了比较，以验证其性能。仿真结果表明，该控制系统具有较高的精度和优越的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Maritime Technology

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审稿时长

16 weeks