Christian Bertsch
Robert Bosch GmbH, Corporate Sector Research and Advance Engineering, Schwieberdingen, Germany
Elmar Ahle
Robert Bosch GmbH, Corporate Sector Research and Advance Engineering, Schwieberdingen, Germany
Ulrich Schulmeister
Robert Bosch GmbH, Corporate Sector Research and Advance Engineering, Schwieberdingen, Germany
Ladda ner artikel
http://dx.doi.org/10.3384/ecp1409627Ingår i: Proceedings of the 10th International Modelica Conference; March 10-12; 2014; Lund; Sweden
Linköping Electronic Conference Proceedings 96:2, s. 27-33
Publicerad: 2014-03-10
ISBN: 978-91-7519-380-9
ISSN: 1650-3686 (tryckt), 1650-3740 (online)
The demand for model exchange between development partners will grow during the next years. The Functional Mockup Interface (FMI) is a well received tool independent approach for model exchange. The Original Equipment Manufacturers (OEM) have committed themselves to support FMI as exchange format for simulation models. Therefore; the FMI is a promising candidate to become the industry standard for model exchange and cross-company collaboration. In this paper; the FMI standard is evaluated from an industrial perspective.
[1] Blochwitz; T. et al.; The Functional Mockup
Interface for Tool independent Exchange of
Simulation Models; In: Proceedings of the 8th
International Modelica Conference 2011;
Dresden; Germany
[2] Blochwitz; T. et al.; The Functional Mockup
Interface 2.0: The Standard for Tool independent
Exchange of Simulation Models;
In: Proceedings of the 9th MODELICA Conference
2012; Munich; Germany
[3] FMI project website; https://www.fmistandard.org/
[4] Chombard; P.; Multidisciplinary modeling
and simulation speeds development of automotive
systems and software; ITEA2 innovation
report; published online:
http://www.itea2.org/project/index/view/?project=217
[5] Chombard; P.; Standard FMI pour l’échange
et la co-simulation de modèles multidisciplinaires;
LMCS Conference 2012;
http://www.acsysteme.com/fr/lmcs-012
[6] ProSTEP Smart Systems Engineering (SSE)
Project; http://www.prostep.org/
[7] Abel; A. et.al.; Functional Mockup Interface
in Mechatronic Gearshift Simulation for
Commercial Vehicles; In: Proceedings of the
9th MODELICA Conference 2012; Munich;
Germany
[8] Sun Y.; Vogel S.; Steuer H.; Combining Advantages
of Specialized Simulation Tools
and Modelica Models using Functional
Mockup Interface (FMI); In: Proceedings of
the 8th MODELICA Conference 2011; Dresden;
Germany
[9] Chrisofakis E.; Junghanns A.; Kehrer C.;
Rink A.; Simulation-based development of
automotive control software with Modelica;
In: Proceedings of the 8th MODELICA Conference
2011; Dresden; Germany
[10] Schneider; Stefan-Alexander; Virtual System
Prototyping in Automotive Industry and the
role of FMI; 7th MODPROD Workshop on
Model-Based Product Development 2013;
Linköping; Sweden
[11] FMU Compliance Checker; https://www.fmistandard.org/downloads
[12] FMI Cross Check Rules; https://svn.fmistandard.org/fmi/branches/public/CrossCheck_Results/
[13] Schierz; T.; Arnold; M.; Clauß C.; Cosimulation
with communication step size
control in an FMI compatible master algorithm;
In: Proceedings of the 9th
MODELICA Conference 2012; Munich;
Germany
[14] Petridis; K.; Klein; A.; Beitelschmidt; M.:
Asynchronous method for the coupled simulation
of mechatronic systems. In: PAMM
Volume 8 (2008); Nr. 1
[15] Petridis; K.: Synchrone und asynchrone Verfahren
zur gekoppelten Simulation
mechatronischer Systeme; TU Dresden; Dissertation;
to appear
