飞艇设计空间多利益相关者探索决策支持系统

Daniel C. Richards, J. Salmon, Tevin J Dickerson, C. Mattson, William J Neff
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引用次数: 0

摘要

尽管自20世纪初使用飞艇以来,人们对飞艇的兴趣一直在波动,但近年来,技术的进步和对更灵活、更环保的运输方式的需求已经引起了飞艇发展的一系列研究和激增。对于公司和政府来说,要了解如何将飞艇纳入其机队以完成新的或现有的任务类型,系统设计空间探索是了解飞艇,其用途和设计参数的重要一步。开发了一个决策支持系统(DSS),即轻于空气系统的设计探索(DELTAS),以帮助利益相关者完成这项任务。德尔塔允许用户设计飞艇和任务,以确定设计如何在场景中执行。由于飞艇对海拔高度很敏感,风和地形也可以研究,看看它们是如何影响任务场景的。对于给定的任务,也可以进行仿真,以在用户定义的高级飞艇设计参数范围内找到帕累托最优设计。提供了一个案例研究,演示了delta如何用于探索特定任务的飞艇设计空间。本案例研究表明,实验设计对于更彻底地覆盖设计空间以及发现和理解导致最佳任务时间和成本的飞艇设计变量之间的关系是多么重要。
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A decision support system for multi-stakeholder exploration of the airship design space
Although there have been oscillations in airship interest since their use in the early 1900s, technological advancements and the need for more flexible and environmentally friendly transportation modes have caused a stream of study and surge in airship development in recent years. For companies and governments to understand how airships can be incorporated into their fleets to fulfill new or existing mission types, system design space exploration is an important step in understanding airships, their uses, and their design parameters. A decision support system (DSS), Design Exploration of Lighter-Than-Air Systems (DELTAS), was developed to help stakeholders with this task. DELTAS allows users to design airships and missions to determine how a design will perform in the scenario. As airships are sensitive to elevation and altitude, wind and terrain can also be studied to see how they may affect a mission scenario. Simulations can also be run for a given mission to find the Pareto-optimal designs for user-defined ranges of high-level airship design parameters. A case study is provided that demonstrates how DELTAS can be used to explore the airship design space for a specified mission. This case study shows how a design of experiments is important to more thoroughly cover the design space and to find and understand the relationships between airship design variables that lead to optimal mission times and costs.
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来源期刊
CiteScore
2.80
自引率
12.50%
发文量
40
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