快速,自动化,测试,验证和确认立方体卫星

IF 0.2
Yaseen Zaidi, N. Fitz-Coy, R. V. Zyl
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引用次数: 3

摘要

提出了一个小规模的任务保证和工程工作流程。在ZACUBE-1任务中获得的经验促进了自动化系统工程平台的发展,从而实现了系统设计、测试和验证的一致性。该平台通过协调生命周期的不同元素和合并所涉及的工具来实现系统工程的方法学。系统建模、模拟、原型和设计的阶段B/C活动可以统一为复合效果,并提高系统视图的级别。验证和确认(V&V)是通过将测试和测量设备集成到平台来实现的。通过该平台,我们完成了CubeSat子系统的快速电气和功能测试和验证,以及20°C至+50°C循环的热验证。该平台由执行功能和热环境测试的应用软件自动化,并通过集成实时目标硬件为需求流、系统定义、嵌入式开发和仿真提供支持。该平台用于验证s波段通信子系统,同时节省时间并获得热负载下传输性能的宝贵见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rapid, automated, test, verification and validation for the CubeSats
Bringing up of a small-scale mission assurance and engineering workflow is described. The experiences learned in the ZACUBE-1 mission prompted the development of an automated systems engineering platform leading to conformity in system design, test, and verification. The platform implements the methodology of systems engineering by coordinating diverse elements of the lifecycle and by incorporating the tools involved. The phase B/C activities of system modelling, simulations, prototyping, and design may be unified to a compounding effect and raising the level of the system view. The Verification and Validation (V&V) is achieved by integrating a test and measurement facility to the platform. With the platform, we accomplish rapid electrical and functional test and verification of the CubeSat subsystems and thermal validation in 20 °C to +50 °C cycle. The platform is automated by an application software which executes functional and thermal environment tests and provides support for requirements flow, system definition, embedded development, and simulations by integrating real-time target hardware. The platform is exploited in validating an S-band communications subsystem while economizing time and obtaining valuable insight into transmission performance under thermal loading.
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来源期刊
CiteScore
1.00
自引率
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发文量
2
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