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Simulation of Driveability in Real-time
ISSN: 0148-7191, e-ISSN: 2688-3627
Published April 20, 2009 by SAE International in United States
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In this article a new approach for a combined optimization of performance, emissions, fuel consumption and driveability is presented. Traditionally the development of performance, emissions and consumption takes place on drivetrain testbeds and on chassis dynos. The development of driveability is done in vehicle tests very late in the development phase for which AVL-DRIVE™ is used by many OEMs for the objective evaluation of driveability.
The so-called “Vehicle Simulation Model” VSM is a framework for the simulation of driveability in real time. Its flexible model structure as well as the tight connection to AVL-DRIVE™ offers the possibility to integrate the optimization of driveability in earlier development steps and therefore neglect repeating loops in the development caused by e.g. not fulfilled driveability targets.
CitationZehetner, J., Schöggl, P., Dank, M., and Meitz, K., "Simulation of Driveability in Real-time," SAE Technical Paper 2009-01-1372, 2009, https://doi.org/10.4271/2009-01-1372.
- Helmut List Peter Schöggl Objective Evaluation of Vehicle Driveability SAE 980204
- List H. Schöggl P. „Method for analyzing the driving behaviour of motor vehicles“ 1997
- Schöggl, P. Ramschak, E. Bogner, E. Dank, M. Driveability Design: Entwicklung eines kunden-spezifischen Fahrzeugcharakters 2001 186 195
- Schöggl P. Ramschak E. Vehicle driveability assessment using neural networks for development, calibration and quality tests SAE 2000-01-0702
- Schöggl P. Ramschak E. “Apadtive Driveability” 2000
- Ramschak, E. Schöggl, P. Gallacher, A. Brustolin, G. CAMEO and DRIVE: New Software Tools for the Calibration of Engine Control Units at the Test Bench. ATA 2001 The Role of Experimentation in the Automotive Product Development Process Florenz, Italien 2001
- Putz G. Hollauf B. Böhm H. Hülser H. Schöggl P. AVL ARES Real-Time engine model – an approach to accelerate the modern engine and software development process JSAE Spring 2007 Conference