地球观测卫星的先进数据处理体系结构

IF 1 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS IT-Information Technology Pub Date : 2021-08-20 DOI:10.1515/itit-2020-0036
Julianna Bozler, H. Herpel, J. Johansson, W. Gasti, O. Mourra
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引用次数: 1

摘要

摘要在本文中,我们描述了嵌入式系统的商业开放标准如何影响未来卫星数据处理系统的架构。传统上,卫星数据处理系统是基于联邦体系结构的原则,即。 e.一个功能被实现为一个盒子。每个盒子都有自己的外壳和电源。在本文中,我们描述了从传统的联邦体系结构到基于自适应工业标准的集中式但模块化体系结构的过渡路径。在所提出的方法中,车载计算机、全球导航卫星系统接收器、接口板等功能模块组合在机架中,通过使用标准通信链路的标准背板进行通信。在高级数据处理体系结构研究期间进行的分析表明,这种方法有助于显著降低质量和功耗(约20 %) 典型的卫星数据处理系统。高级数据处理体系结构研究中强调的另一个要点是简化组装、集成和测试活动。所有这些都将有助于航天工业处理日益增加的系统复杂性,同时将成本保持在可接受的水平。
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Advanced data handling architecture for earth observation satellites
Abstract In this paper we describe how commercial open standards for embedded systems could affect the architecture of future satellite data handling systems. Traditionally, satellite data handling systems are based on the principles of a federated architecture, i. e. one function is implemented as one box. Each box has its own housing and power supply. In the paper we describe the transition path from the traditional federated architecture to a centralized but modular architecture based on adapted industrial standards. In the presented approach functional modules like on-board computer, Global Navigation Satellite System receiver, interface boards, etc. are combined in a rack communicating via a standard backplane using standardized communication links. The analysis performed during the Advanced Data Handling Architecture study showed that this approach contributes significantly to mass and power reduction (approx. 20 %) of a typical satellite data handling system. Another major point highlighted in the Advanced Data Handling Architecture study is the simplification of Assembly, Integration and Test activities. All this will help space industry to handle increasing system complexity while keeping costs at an acceptable level.
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来源期刊
IT-Information Technology
IT-Information Technology COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
3.80
自引率
0.00%
发文量
29
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