摘要: 海洋平台是用于开发海洋石油资源的大型海上工程建筑。长久以来由于计算工作对人力的依赖较强,海洋资源开采平台的设计开发一直相对低效率的。打造一套高效的半自动化的平台开发软件是提高效率最有效的方法。本毕业论文中不涉及海洋平台开发的具体设计、分析、校核方法,仅从软件工程角度阐述如何将不同软件整合为统一平台协同工作,并讨论研究系统架构设计在软件开发中地位、作用及其重要性。21197
本系统设计将TLP海洋浮式平台的设计、分析、校核三大开发过程结合一身,力求高效率,低人力成本的完成海洋平台的开发工作。本篇结合稳定高效的三层架构技术为系统框架,具体分析三层架构的结构原理、各层作用、层与层之间的区分方法以及实践运用等问题。以ANSYS、Orcaflex 、WAMIT为依托软件,从实践出发设计并完成了海洋浮式平台分析、设计、校核一体化软件。
关键词: 海洋浮式平台;三层架构;系统架构;
Floating platform software for analysis, design and checking integration
Abstract: Offshore platforms for the development of offshore petroleum resources of large offshore engineering and construction. Since the calculation of long work of human dependence strong design and development of marine resources exploitation platform has been relatively inefficient. To create an efficient platform for the development of semi-automated software is the most effective way to improve efficiency. This article is not involved in the specific design of offshore platforms, analysis, checking method, only from the perspective of how the software works to integrate different software to work together as a unified platform to discuss and study the status of the system architecture, the role and importance in software development .
The system design will TLP marine floating platform design , analysis, development process combined with one of three check strive development of high efficiency, low labor costs to complete the offshore platform . This combined with a stable and efficient three-tier technology framework , specific analysis methods to distinguish between the three-tier structure principle , the role of each layer , between the layers , and the practical application issues. In ANSYS, Orcaflex, WAMIT based software , starting from the practice of design and finish of the ocean floating platform analysis, design , checking integration software.
Keywords: Floating offshore platform; Three-tier architecture; System architecture;
目录
摘要 i
Abstract i
目录 iii
1 绪论 1
1.1 开发背景 1
1.2 开发目的 1
1.3 项目提出的意义 1
1.4 论文篇章结构 2
2 技术背景 3
2.1 C#技术 3
2.2 三层架构 3
2.2.1 典型的三层架构 3
2.2.2 分层架构的利弊分析 4
2.2.3 分层架构设计的基本原则 4
3 系统需求分析 6
3.1 风险分析 6
3.2 系统功能与用例图 6
3.2.1 项目管理 6
3.2.2 设计条件输入 7
3.2.3 基本模型设计 8
3.2.4 3D模型展示 8 ANSYS海洋浮式平台分析设计校核一体化软件:http://www.751com.cn/jisuanji/lunwen_13295.html