PnP立方体卫星的出现

C. Kief, B. Zufelt, S. Cannon, J. Lyke, J. Mee
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引用次数: 7

摘要

就时间和预算而言,集成是航天器开发中一个非常耗时的组成部分。虽然有许多有用的COTS航天器组件可用,但在集成卫星系统中接口和控制这些组件仍然是一项复杂的工程任务。斯坦福大学/加州大学的聚立方卫星和聚小卫星轨道分置器(PPOD)标准已经开始将小卫星机械系统标准化,并彻底改变了小卫星的部署方式。美国国家航空航天局已经认识到这一点,他们的教育发射纳米卫星(ELaNa)计划最近为2012年的ELaNa-4发射选择了17颗立方体卫星(包括一颗高中卫星)。为了利用这一势头,空军研究实验室(AFRL)组织并支持了一个由商业和学术实验室组成的团队,以开发和测试一套覆盖空间即插即用架构(SPA)标准,以支持独立开发的卫星模块化系统的快速集成。SPA不仅是一个电气互连和通信方案,而且是一个完整的自组织和自配置系统模型,以支持特定任务的小卫星的快速装配。SPA利用XTEDS(扩展传感器电子数据表)模型,而不是强迫现有模块重新开发为通用消息传递标准。每个卫星模块包含一个描述其接口、能力、信息、数据格式等的电子文档。通过读取组件的XTEDS,其他系统可以快速集成和利用新模块。虽然最初的设计是利用纳米卫星,但所有开发的东西都可以很容易地扩展到更大的航天器、无人机或其他航空航天和国防系统。本文讨论了我们在开发CubeSat Trailblazer的经验,这是一艘1U SPA-only航天器,于2012年发射,作为SPA技术的试验台。讨论了独立模块作为协作通信系统的自组织机制。还介绍了与命令和数据处理程序(CDH)的软件开发相关的简化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The advent of the PnP Cube satellite
In terms of time and budget, integration is a significant time-consuming component of spacecraft development. While many useful COTS spacecraft components are available, interfacing and controlling these components in an integrated satellite system remains a complex engineering task. The Stanford/Cal Poly CubeSat and Poly-Picosatellite Orbital Dispenser (PPOD) standards have begun to standardize small satellite mechanical systems and revolutionize the way small satellites are deployed. NASA has recognized this as evident by their Educational Launch of Nanosatellites (ELaNa) program which recently selected 17 CubeSats for the ELaNa-4 launch in 2012 (including one high school). To capitalize on this momentum, the Air Force Research Lab (AFRL) has organized and supported a team of commercial and academic laboratories to develop and test an over-arching Space Plug-and-play Architecture (SPA) set of standards to support the rapid integration of independently developed satellite modular systems. SPA represents not only an electrical inter-connection and communication scheme, but a complete model for a self-organizing and self-configuring system to support the rapid assembly of mission-specific small satellites. Rather than forcing existing modules to be re-developed to a common messaging standard, SPA utilizes an XTEDS (eXtended Transducer Electronic Data Sheet) model. Each satellite module contains an electronic document describing its interface, capabilities, messages, data formats, etc. By reading a components XTEDS, other systems can quickly integrate and utilize a new module. While designed to initially take advantage of nanosatellites, everything developed can easily scale to larger spacecraft, UAVs or other aerospace and defense systems. This paper discusses our experience in developing the CubeSat Trailblazer, a 1U SPA-only spacecraft - launching in 2012 as a testbed for SPA technology. The mechanisms of self-organization for independent modules as a cooperating communications system are discussed. The simplifications associated with software development of a Command and Data Handler (CDH) is also presented.
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