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Abstract Future space missions call for advanced co Future space missions call for advanced computing system architectures fulfilling strict size, weight and power consumption (SWaP) requisites, decreasing the mission cost and ensuring the safety and timeliness of the system. The AIR (ARINC 653 in Space Real-Time Operating System) architecture defines a partitioned environment for the development and execution of aerospace applications, following the notion of time and space partitioning (TSP), preserving application timing and safety requisites. Due to the change of the mission plans and in the presence of unexpected events, it may be necessary or useful to be able to reconfigure the scheduling of the system applications at execution time. In this paper we present an algorithm for update application schedules, showing results from the proof-of-concept prototype in the scope of the AIR architecture. type in the scope of the AIR architecture.
Address Caparica, Lisbon, Portugal  +
Author Joaquim Rosa + , João Pedro Craveiro + , José Rufino +
Booktitle 9th IEEE International Conference on Industrial Informatics (INDIN 2011)  +
Document Document for Publication-Rosa11INDIN.pdf +
Key Rosa11INDIN  +
Month jul  +
NumPubDate 2,011.07  +
Project Project:AIR-II +
ResearchLine Timeliness and Adaptation in Dependable Systems (TADS) +
Title Safe Online Reconfiguration of Time- and Space-Partitioned Systems  +
Type inproceedings  +
Year 2011  +
Has improper value forThis property is a special property in this wiki. Url  +
Categories Publication  +
Modification dateThis property is a special property in this wiki. 29 January 2013 17:10:43  +
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