Vessel Dynamic Positioning System Mathematical Model

Andrii Simanenkov, Halyna Doshchenko, Valentyn Chymshyr, Andrii Kononenko, Hanna Terzi, Iryna Smyrnova
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Abstract

This study aims to examine two potential approaches for addressing the challenge of synthesizing control laws in the Dynamic Positioning (DP) system. Both approaches pertain to the same ship model but are rooted in distinct ideologies concerning how to account for the influence of external disturbances on a closed system. The findings of this investigation could offer valuable insights for enhancing DP systems and formulating more efficient management strategies in maritime conditions. The research delves into the structure and principles of the DP system as a sophisticated control complex, identifying associated challenges in its application. Despite numerous implemented projects and considerable developer efforts, sustaining a ship in a specified position during rough seas remains a formidable task, partly due to the ship’s lack of energy armament. Exploration in the realm of regulatory system development has yet to yield the anticipated results. The present study constructs a mathematical model depicting the dynamics of a ship during positioning, considering two versions of automatic control laws aimed at stabilizing the ship’s position. The second model demonstrates superior efficiency in the control system, surpassing the first by at least 14%. A comparative analysis of two control system options with filtering properties in dynamic positioning mode for the vessel was conducted. For better results, it is recommended to implement filtering on the relevant data source before this procedure on a specific data consumer. This preliminary testing helps to remove duplicate and inaccurate data, reducing the load on the data link. Final filtering should be performed on high-performance systems. In summary, the originality and novelty of this article stem from its comparative analysis of control laws, exploration of DP system dynamics, acknowledgment of existing challenges, and practical recommendations for data filtering in dynamic positioning. The study brings a tangible contribution to the field, paving the way for advancements in the development of DP systems management and control methods.
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船舶动态定位系统数学模型
本研究旨在探讨解决动态定位(DP)系统控制法则合成难题的两种潜在方法。这两种方法涉及相同的船舶模型,但在如何考虑外部干扰对封闭系统的影响方面却有着不同的理念。这项研究的结果可为增强 DP 系统和制定更有效的海事管理策略提供宝贵的见解。该研究深入探讨了作为复杂控制综合体的 DP 系统的结构和原理,确定了其应用中的相关挑战。尽管实施了大量项目,开发人员也付出了巨大努力,但在波涛汹涌的海面上保持船舶在指定位置仍然是一项艰巨的任务,部分原因是船舶缺乏能源装备。在调节系统开发领域的探索尚未取得预期成果。本研究构建了一个数学模型,描述了船舶在定位过程中的动力学特性,并考虑了两种旨在稳定船位的自动控制法则。第二个模型显示了控制系统的卓越效率,比第一个模型至少高出 14%。在船舶动态定位模式下,对两种具有过滤特性的控制系统方案进行了比较分析。为了获得更好的结果,建议在对特定数据消费者进行此程序之前,先对相关数据源实施过滤。这种初步测试有助于去除重复和不准确的数据,减少数据链路的负载。最终过滤应在高性能系统上进行。总之,本文的原创性和新颖性来自于对控制规律的比较分析、对 DP 系统动态的探索、对现有挑战的认识以及对动态定位中数据过滤的实用建议。该研究为该领域做出了切实贡献,为 DP 系统管理和控制方法的发展铺平了道路。
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来源期刊
WSEAS Transactions on Systems and Control
WSEAS Transactions on Systems and Control Mathematics-Control and Optimization
CiteScore
1.80
自引率
0.00%
发文量
49
期刊介绍: WSEAS Transactions on Systems and Control publishes original research papers relating to systems theory and automatic control. We aim to bring important work to a wide international audience and therefore only publish papers of exceptional scientific value that advance our understanding of these particular areas. The research presented must transcend the limits of case studies, while both experimental and theoretical studies are accepted. It is a multi-disciplinary journal and therefore its content mirrors the diverse interests and approaches of scholars involved with systems theory, dynamical systems, linear and non-linear control, intelligent control, robotics and related areas. We also welcome scholarly contributions from officials with government agencies, international agencies, and non-governmental organizations.
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