Towards modular and scalable on-board computer architecture-Reference-Cited by-同舟云学术

Towards modular and scalable on-board computer architecture

Published:2021-07-02 Issue:4 Volume:63 Page:185-197
ISSN:2196-7032
Container-title:it - Information Technology
language:en
Short-container-title:

Author:

Kulau Ulf¹,Herpel Juergen²^ORCID,Qedar Ran³,Rosenthal Patrick⁴,Krieger Joachim⁵,Schoen Friedrich⁶,Masar Ivan⁷

Affiliation:

1. DSI Aerospace Technologie GmbH , Bremen , Germany

2. Airbus Defence and Space GmbH , Immenstaad , Germany

3. Space Products and Innovation (SPiN GmbH) , Darmstadt , Germany

4. Thales Alenia Space Deutschland GmbH , Ditzingen , Germany

5. SpaceTech GmbH , Seelbachstr. 13 , Immenstaad , Germany

6. Fraunhofer FOKUS , Kaiserin-Augusta-Allee 31 , Berlin , Germany

7. TTTech Computertechnik AG , Vienna , Austria

Abstract

Abstract The demand for satellites and space systems with ever-increasing avionics requirements is constantly growing, whether in the field of satellite communications or earth observation. Traditional architectures for Data Handling Systems (DHS) on satellites are reaching their limits in terms of flexibility, interoperability and reusability, while slowing down the innovation cycle due to costly qualification. With regard to commercial and industrial solutions, it is evident that ‘plug and play’-like systems based on open standards can overcome the above-mentioned disadvantages. For this reason, this paper describes how open standards could affect the architecture of future satellite DHSs. In particular it shows an transition path from the traditional federated architecture to a centralized but modular architecture based on adapted industrial standards.

Publisher

Walter de Gruyter GmbH

Subject

General Computer Science

Link

https://www.degruyter.com/document/doi/10.1515/itit-2020-0037/pdf

Reference26 articles.

1. Copernicus overview. https://www.esa.int/Applications/Observing_the_Earth/Copernicus/Overview3. Accessed: 2020-10-01.

2. Interoperability in embedded systems. https://www.embedded-computing.com/guest-blogs/open-standards-for-accelerating-embedded-vision-and-inferencing-an-industry-overview. Accessed: 2020-12-21.

3. OMAC4S open modular avionics for space. http://www.omac4s.org/objective/. Accessed: 2020-10-01.

4. Open standards. https://open-stand.org/5-reasons-open-standards-are-essential-to-application-development/. Accessed: 2020-12-21.

5. S4Pro smart and scalable satellite high-speed processing chain, h2020 project. https://www.s4pro-h2020.eu/. Accessed: 2020-10-01.