Towards Dynamically Composed Real-time Embedded Systems

Leandro Batista Ribeiro; Marcel Carsten Baunach

Towards Dynamically Composed Real-time Embedded Systems

Leandro Batista Ribeiro, Marcel Carsten Baunach

Institut für Technische Informatik (4480)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Embedded systems are present virtually everywhere, from simple home appliances to complex aerospace systems, and the establishment of the Internet of Things (IoT) increases this ubiquity. Naturally, after deployment, updates might be necessary due to bugs found in the original implementation, improvement of tasks, security holes, etc. However, some domains require the deployment of a big number of devices, which often cover a vast area or are unreachable after deployment, and lead to very expensive, or even impossible updates with physical access to the devices. Therefore, remote updates are of utmost importance. In this paper, we present the existing approaches for remote updates, and analyze the overheads each one causes in the devices and in the update server. Furthermore, we present our concept for coping with dynamically composed real-time systems. Our main goal will be schedulability analysis during dynamic updates.

Originalsprache	englisch
Titel	2017 Betriebssysteme und Echtzeit
Herausgeber (Verlag)	Springer Verlag
Seiten	11-20
Seitenumfang	10
ISBN (Print)	978-3-662-55784-6
Publikationsstatus	Veröffentlicht - Nov. 2017

1 Abgeschlossen
1 Laufend

Embedded Automotive Systems
Baunach, M. C., Batista Ribeiro, L., Martins Gomes, R., Malenko, M., Scheipel, T. P., Saikia, A., Nagarajan, D., Manjunath, V., Kissich, M. & Kanics, K.
1/09/14 → …
Projekt: Arbeitsgebiet
Rekonfigurierbare Prozessorarchitekturen
Baunach, M. C., Martins Gomes, R., Batista Ribeiro, L., Malenko, M., Mauroner, F., Scheipel, T. P. & Saikia, A.
1/09/14 → 31/12/23
Projekt: Forschungsprojekt

Dieses zitieren

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abstract = "Embedded systems are present virtually everywhere, from simple home appliances to complex aerospace systems, and the establishment of the Internet of Things (IoT) increases this ubiquity. Naturally, after deployment, updates might be necessary due to bugs found in the original implementation, improvement of tasks, security holes, etc. However, some domains require the deployment of a big number of devices, which often cover a vast area or are unreachable after deployment, and lead to very expensive, or even impossible updates with physical access to the devices. Therefore, remote updates are of utmost importance. In this paper, we present the existing approaches for remote updates, and analyze the overheads each one causes in the devices and in the update server. Furthermore, we present our concept for coping with dynamically composed real-time systems. Our main goal will be schedulability analysis during dynamic updates.",

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year = "2017",

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N2 - Embedded systems are present virtually everywhere, from simple home appliances to complex aerospace systems, and the establishment of the Internet of Things (IoT) increases this ubiquity. Naturally, after deployment, updates might be necessary due to bugs found in the original implementation, improvement of tasks, security holes, etc. However, some domains require the deployment of a big number of devices, which often cover a vast area or are unreachable after deployment, and lead to very expensive, or even impossible updates with physical access to the devices. Therefore, remote updates are of utmost importance. In this paper, we present the existing approaches for remote updates, and analyze the overheads each one causes in the devices and in the update server. Furthermore, we present our concept for coping with dynamically composed real-time systems. Our main goal will be schedulability analysis during dynamic updates.

AB - Embedded systems are present virtually everywhere, from simple home appliances to complex aerospace systems, and the establishment of the Internet of Things (IoT) increases this ubiquity. Naturally, after deployment, updates might be necessary due to bugs found in the original implementation, improvement of tasks, security holes, etc. However, some domains require the deployment of a big number of devices, which often cover a vast area or are unreachable after deployment, and lead to very expensive, or even impossible updates with physical access to the devices. Therefore, remote updates are of utmost importance. In this paper, we present the existing approaches for remote updates, and analyze the overheads each one causes in the devices and in the update server. Furthermore, we present our concept for coping with dynamically composed real-time systems. Our main goal will be schedulability analysis during dynamic updates.

M3 - Conference paper

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EP - 20

BT - 2017 Betriebssysteme und Echtzeit

PB - Springer Verlag

ER -

Towards Dynamically Composed Real-time Embedded Systems

Abstract

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Projekte

Embedded Automotive Systems

Rekonfigurierbare Prozessorarchitekturen

Dieses zitieren