The core avionics of the Ariane 5 launcher was developed in the early 90s and might be not optimal
with respect to today's requirements and technological advances. In a study within the PREPARE
project formal modeling and mathematical optimization are used to "rethink" the avionics. Based on
the Integrated Modular Avionics (IMA) concept the best candidates for a future avionics architecture
are derived. The results show improvement potentials up to 50%. The most promising architectures are
analyzed in detail and relations between objectives and architectural artefacts are discovered. The
study results and the used method seem important for future launcher development.
%0 Book
%1 annighoefer2015c
%A Annighöfer, Björn
%A Nil, Çelen
%A Sebald, Johannes
%A Thielecke, Frank
%B 6th EUCASS
%D 2015
%K imported myown nonils
%T ARIANE-5-based Studies on Optimal Integrated Modular Avionics Architectures for Future Launchers
%X The core avionics of the Ariane 5 launcher was developed in the early 90s and might be not optimal
with respect to today's requirements and technological advances. In a study within the PREPARE
project formal modeling and mathematical optimization are used to "rethink" the avionics. Based on
the Integrated Modular Avionics (IMA) concept the best candidates for a future avionics architecture
are derived. The results show improvement potentials up to 50%. The most promising architectures are
analyzed in detail and relations between objectives and architectural artefacts are discovered. The
study results and the used method seem important for future launcher development.
@book{annighoefer2015c,
abstract = {The core avionics of the Ariane 5 launcher was developed in the early 90s and might be not optimal
with respect to today's requirements and technological advances. In a study within the PREPARE
project formal modeling and mathematical optimization are used to "rethink" the avionics. Based on
the Integrated Modular Avionics (IMA) concept the best candidates for a future avionics architecture
are derived. The results show improvement potentials up to 50%. The most promising architectures are
analyzed in detail and relations between objectives and architectural artefacts are discovered. The
study results and the used method seem important for future launcher development.},
added-at = {2017-03-24T09:40:30.000+0100},
author = {Annighöfer, Björn and Nil, Çelen and Sebald, Johannes and Thielecke, Frank},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2a3c397bbf5974e36511010d0e4186ca2/annighoefer},
booktitle = {6th EUCASS},
file = {:2015-07-02_P_AR_ARIANE-5-based Studies on Optimal Integrated Modular Avionics Architectures for Future Launchers_Annighoefer .pdf:PDF},
groups = {Avionics Optimization},
interhash = {9d3ddcdb9c91e2c88bd7e71ae055abe6},
intrahash = {a3c397bbf5974e36511010d0e4186ca2},
keywords = {imported myown nonils},
timestamp = {2020-01-27T08:56:07.000+0100},
title = {ARIANE-5-based Studies on Optimal Integrated Modular Avionics Architectures for Future Launchers},
year = 2015
}