This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Key Factors for Successful Integration of Automatic Code Generation in Series Production Development
Technical Paper
2009-01-0154
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
Model-based development and autocoding have become common practice in the automotive industry over the past few years. The industry is using these methods to tackle a situation in which complexity is constantly growing and development times are constantly decreasing, while the safety requirements for the software stay the same or even increase. The debate is no longer whether these methods are useful, but rather on the conditions for achieving optimum results with them.
From the experiences made during the last decade this paper shows some of the key factors helping to achieve success when introducing or extending the deployment of automatic code generation in a model-based design process.
Recommended Content
| Technical Paper | The Ingersoll-Rand DA-48-A State of the Art Compactor |
| Technical Paper | Concepts in Data Communications for Vehicular Systems |
| Technical Paper | On the Design of a Task Based Human Simulation System |
Authors
Citation
Beine, M., Eisemann, U., Fleischer, D., and Stamatov, S., "Key Factors for Successful Integration of Automatic Code Generation in Series Production Development," SAE Technical Paper 2009-01-0154, 2009, https://doi.org/10.4271/2009-01-0154.Also In
References
- TargetLink Goes Off-Road Pruett Thomas H. Chrysler Jeep & Truck, dSPACE News 2 2005
- Model-Based Development with Automatic Code Generation – Challenges and Benefits in a DCT High-Volume Project Grassl Georg Winkler Gerd VDO Automotive AG, SAE Paper 2008-01-0745
- Umsetzung der Anforderungen aus der funktionalen Sicherheit in der Fahrwerkselektronik, Walter Kuffner, Hauptabteilungsleiter Elektronik Fahrdynamik, BMW Group 11. Internationaler Fachkongress Fortschritte in der Automobil- Elektronik, Ludwigsburg 2007
- TargetLink for Safety-Critical Systems Tauber Hermann ATENA Engineering GmbH Jungmann Michael MTU Aero Engines GmbH dSPACE News 2003
- „Kosten-/Nutzenanalyse der modellbasierten Softwareentwicklung im Automobil“ Little Arthur D. 2007
- Control Algorithm Modeling Guidelines Using MATLAB®, Simulink®, and Stateflow® MathWorks Automotive Advisory Board (MAAB) 2007
- Modeling Guidelines for MATLAB/Simulink/Stateflow and TargetLink
- MISRA AC TL Modelling style guidelines for the application of TargetLink in the context of automatic code generation 2007
- Model Examiner: Automatic Compliance Checks for Simulink and TargetLink models http://www.model-engineers.com
- Executable Specs: What Makes One, and How are They Used? Schubert Peter Engineering Packer Vitkin Lev Winters Frank Delphi Electronics & Safety, SAE Paper 2006-01-1357
- Analyzing Model Coverage http://www.mathworks.com/products/simverification
- Code Coverage Analysis http://www.dspace.de/ww/en/pub/home/products/sw/pcgs/codecoverage.cfm
- EmbeddedTester http://www.osc-es.de/
- Reactis http://www.reactive-systems.com/
- EmbeddedValidator http://www.osc-es.de/
- PolySpace TM Model Link TM TL (for dSPACE TargetLink ® ) http://www.mathworks.com/products/polyspacemodeltl/
- Quality Assurance Aspects and Activities in Automotive Model-Based Development Beine Michael Eisemann Ulrich Wewetzer Christian Automotive Safety & Security 2006 2006
- Data Management in the Model-Based Development Process Beine Michael Eisemann Ulrich Elektronik Automotive 6/2006
- Evaluation of code generators on the basis of Simulink models Riemer T. Baumann G. Kappelmann FKFS; P. Hötzer D. Kröhnert A. GmbH Robert Bosch Tagungsband des 6. Internationalen Stuttgarter Symposiums Kraftfahrwesen und Verbrennungsmotoren 2005
- From Function Model to AUTOSAR-Compliant Production Code Eisemann Ulrich Beine Michael Hanser Automotive 2006
- IEC 61508 Functional safety of electrical / electronic / programmable electronic safety-related systems (E/E/PES) International Electrotechnical Commission (IEC)
- ISO/CD 26262, Road vehicles – Functional Safety, International Organization for Standardization
- The Validation Suite Approach to Safety Qualification of Tools Schneider, Lovric, Mai, Automotive Safety&Security Stuttgart 2008