Modellgestütze Entwicklung eines Safety Computer Modules Presently deployed electronics infrastructures in automobiles consist of 80 to 100
electronic control units (ECUs) that are working in a distributed fashion. To overcome
the increasing complexity of integrating additional applications into this system so
called "domain computers" are being developed.
Domain computers integrate functions from specific fields of application (e.g. vehicle
safety, chassis control) into a single ECU, hence reducing the complexity of the
distributed system. However, numerous challenges arise from the more complex ECU design.
In order to support a safe and robust system behaviour time-triggered system paradigms
are applied to safety-critical domain computers. Moreover, economic constraints require
modular and flexible system architectures that allow the deployment of applications
from different vendors. Both requirements rely on an in-depth knowledge of the non-
functional properties of the relevant applications. Particularly timing properties are
of utmost importance.
The goal of this research project is to provide a methodical framework to support the
development of integrated automotive embedded ECU architectures for mixed safety critical
and non-safety critical applications. | Projektleitung: Lauer, Christoph
Stichwörter: Automotive Technology, Dependably Systems, Model-driven Design ,Embedded Safety and Reliability
Laufzeit: 15.5.2008 - 15.5.2011
Förderer: AUDI AG
Mitwirkende Institutionen: INI.FAU Safety-Electronics / Airbag-Control-Systems
Kontakt: German, Reinhard Telefon +49 9131 85 27916, Fax +49 9131 85 27409, E-Mail: reinhard.german@fau.de
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