DP in ice environments—development of a dynamic positioning in ice validation platform (DPIVP)

IF 1.3 4区工程技术 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Simulation-Transactions of the Society for Modeling and Simulation International Pub Date : 2023-01-12 DOI:10.1177/00375497221141463

Jason Mills, Mohammed Islam, Wayne Pearson, Bob Gash

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引用次数: 2

Abstract

This paper presents the development of a dynamic positioning in ice validation platform (DPIVP) which is part of a larger research project aimed at developing dynamic positioning (DP) system technologies for ice-rich environments. One outcome is simulation software to aid research in this area. The DPIVP software was designed to realistically simulate the dynamics of ice-structure interactions for real-time applications and to validate components common to DP in ice simulations. The software consists of many components which the DPIVP ties together as a unified system. All components have well-defined interfaces. Many of them are also distributed, allowing execution on separate computers and/or CPUs which helps ensure real-time operation. These two characteristics also decreases coupling and encourages a more modular design with the benefit of easily substituting alternative component implementations without reprogramming the DPIVP. Alternate implementations are useful for conducting research in specific DP in ice areas without substantially changing the system, such as alternative ice force models, DP control algorithms, vessel models, 3D and 2D visualization, environment models, and data acquisition systems. The integrated system was tested and evaluated using unit testing, integration testing, and system testing. The completed system was also validated using test cases that match physical model tests; the results compared favorably. Although the software has some limitations, for example, validated ice-force models being limited to two vessels, and thus lacks the generality we wish, the end result is a working prototype that satisfies the research requirements and provides an architecture and framework for future development.

查看原文本刊更多论文

冰环境下的DP——动态定位冰验证平台的开发

本文介绍了冰下动态定位验证平台(DPIVP)的开发，这是一个旨在开发富冰环境动态定位(DP)系统技术的大型研究项目的一部分。一个成果是模拟软件，以帮助在这一领域的研究。DPIVP软件旨在为实时应用逼真地模拟冰-结构相互作用的动态，并验证DP在冰模拟中的常见组件。该软件由许多组件组成，DPIVP将这些组件连接在一起作为一个统一的系统。所有组件都有定义良好的接口。它们中的许多也是分布式的，允许在不同的计算机和/或cpu上执行，这有助于确保实时操作。这两个特性还减少了耦合，并鼓励更模块化的设计，其好处是无需重新编程DPIVP即可轻松替换可选组件实现。替代实现对于在冰区进行特定DP研究非常有用，而无需实质性改变系统，例如替代冰力模型，DP控制算法，船舶模型，3D和2D可视化，环境模型和数据采集系统。使用单元测试、集成测试和系统测试对集成系统进行测试和评估。完成的系统还使用与物理模型测试相匹配的测试用例进行了验证;结果比较有利。虽然该软件有一些局限性，例如，验证的冰力模型仅限于两艘船，因此缺乏我们希望的通用性，但最终结果是一个满足研究要求的工作原型，并为未来的发展提供了一个架构和框架。

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

Simulation-Transactions of the Society for Modeling and Simulation International 工程技术-计算机：跨学科应用

CiteScore

3.50

自引率

31.20%

发文量

审稿时长

3 months

期刊介绍： SIMULATION is a peer-reviewed journal, which covers subjects including the modelling and simulation of: computer networking and communications, high performance computers, real-time systems, mobile and intelligent agents, simulation software, and language design, system engineering and design, aerospace, traffic systems, microelectronics, robotics, mechatronics, and air traffic and chemistry, physics, biology, medicine, biomedicine, sociology, and cognition.