舰船系统设计通用建模与分析框架

Jian Shi, R. Amgai, S. Abdelwahed, A. Dubey, J. Humphreys, M. Alattar, R. Jia
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引用次数: 6

摘要

本文提出了一种基于模型集成计算(MIC)原理的船舶设计建模与仿真环境。所提出的方法有利于船舶动力系统和类似系统的设计和分析,这些系统集成了来自不同专业领域的组件。传统的仿真平台,如Matlab®、Simulink®、PSCAD®和VTB®,要求设计人员对工具中所需域的语法和语义信息有明确的了解。然而,这种限制严重地减慢了设计和分析过程,并导致跨域或跨平台的操作仍然容易出错且代价高昂。我们的方法侧重于建模环境的开发,该环境通过捕获建模概念、组合原则和操作约束,为跨不同领域的各种应用程序提供通用支持。为了对建模概念进行初步论证,本文通过开发一个简化的舰载电源系统应用模型,并分别使用Matlab引擎和VTB求解器从不同方面评估其性能,将设计范围限制在所提出环境的跨平台实现上。在案例研究中,预先指定故障场景并在系统模型上进行测试。通过调用外部求解器生成相应的时域总线电压幅值和角度分布图,并显示给用户,然后保存以供将来分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generic modeling and analysis framework for shipboard system design
This paper proposes a novel modeling and simulation environment for ship design based on the principles of Model Integrated Computing (MIC). The proposed approach facilitates the design and analysis of shipboard power systems and similar systems that integrate components from different fields of expertise. The conventional simulation platforms such as Matlab®, Simulink®, PSCAD® and VTB® require the designers to have explicit knowledge of the syntactic and semantic information of the desired domain within the tools. This constraint, however, severely slows down the design and analysis process, and causes cross-domain or cross-platform operations remain error prone and expensive. Our approach focuses on the development of a modeling environment that provides generic support for a variety of application across different domains by capturing modeling concepts, composition principles and operation constraints. For the preliminary demonstration of the modeling concept, in this paper we limit the scope of design to cross-platform implementations of the proposed environment by developing an application model of a simplified shipboard power system and using Matlab engine and VTB solver separately to evaluate the performance with different respects. In the case studies a fault scenario is pre-specified and tested on the system model. The corresponding time domain bus voltage magnitude and angle profiles are generated via invoking external solver, displayed to users and then saved for future analysis.
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