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Longitudinal Vehicle Dynamics Modeling on the Basis of Engine Modeling
Technical Paper
2004-01-1620
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Today, an increasing emphasis is being placed on vehicle transient operation improvement to accomplish better drivability and lower emission and fuel consumption. In this regard, dynamic simulatory model of powertrain-vehicle is a stepping-stone on the path to achieve this goal.
In this study, a complete powertrain-vehicle model has been developed to predict vehicle performance and fuel consumption, with careful attention given to the engine dynamics (dynamic of air and fuel flows into the intake manifold, and crankshaft transient response). The model has been experimentally identified and validated for “Paykan 1600i”.
Since there is a good agreement between vehicle test and simulation results, the model proposed in this study can be used in design and performance evaluation of vehicle powertrain system.
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Authors
- A. Sahraeian - IRAN KHODRO Engine Research, Design and Manufacturing Co. (IPCo.)
- M. Shahbakhti - IRAN KHODRO Engine Research, Design and Manufacturing Co. (IPCo.)
- A. R. Aslani - IRAN KHODRO Engine Research, Design and Manufacturing Co. (IPCo.)
- S.A. Jazayeri - K.N.T. University of Technology
- S. Azadi - K.N.T. University of Technology
- A. H. Shamekhi - K.N.T. University of Technology
Topic
Citation
Sahraeian, A., Shahbakhti, M., Aslani, A., Jazayeri, S. et al., "Longitudinal Vehicle Dynamics Modeling on the Basis of Engine Modeling," SAE Technical Paper 2004-01-1620, 2004, https://doi.org/10.4271/2004-01-1620.Data Sets - Support Documents
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Also In
Heat Exchangers and Their Simulation, Thermal Management, and Fundamental Advances in Thermal and Fluid Sciences
Number: SP-1818; Published: 2004-03-08
Number: SP-1818; Published: 2004-03-08
Modelling: Diesel Engines, Multi-Dimensional Engine, and Vehicle and Engine Systems
Number: SP-1826; Published: 2004-03-08
Number: SP-1826; Published: 2004-03-08
References
- Waters W. C. “General Purpose Automotive Vehicle Performance and Economy Simulator” SAE Paper No. 720043 1972
- Cornell Charles, R. “Dynamic Simulation of a Hydrostatically Propelled Vehicle” SAE Paper No. 811253 1981
- Fluga Eri, C. “Modeling of the Complete Vehicle Powertrain Using ENTERPRISE” SAE Paper No. 931179 1993
- Morel, T. Keribar, R. Silvestri, J. Wahiduzzaman, S. “Integrated Engine / Vehicle Simulation and Control” SAE Papaer No. 1999-01-0907 1999
- Phillips A. W. Assanis D. N. Badgley “Development and Use of a Vehicle Powertrain Simulation for Fuel Economy and Performance Studies” Automotive System Laboratory, Department of Mechanical and Industrial Engineering SAE Paper No. 900619 1990
- Seoul National University “Auto Tool” October 1998
- Steven A. March Jason P. “Studying Low Frequency Vehicle Phenomena Using Advanced Modeling of a Drive Line Model” SAE Paper No. 951270 1995
- Moskwa, J. J. Babbitt, G. R. Seaney S. P. “Development of a High-Bandwidth, Hydrostatic Transient Engine Dynamometer System” ISATA Paper No. 96AE028 1996
- National Renewable Energy Laboratory (N. R. E. L) “Advanced Vehicle Simulator (Advisor)” April 30 2002
- Babbitt, Guy R. Moskwa, J. J. “Hardware Implementation Details and Test Results for a High-Bardwidth, Hydrostatic Transient Engine Dynamometer System” SAE 1997
- Babbitt, Guy R. Moskwa, J. J. “Design of an Integrated System for Control and Data Acquisition of a High-Bardwidth, Hydrostatic Transient Engine Dynamometer System” Presented at American Control Conference, 1997
- Ciesla, C. Keribar, R. Morel, T. “Engine / Powertrain / Vehicle Modeling Tool Applicable to All Stages of the Design Process” SAE Paper No. 2000-01-0934 2000
- Weinowski, R. Baumgarten, H. “Warmlaufstrategie Zur Erfullung der Kunftigen EU Stufe III-Abgasstandards 3 Symp. Entwicklungsdemdenzen auf dem Gebiet der Ottomotoren TA, Esslingen, Germany
- Anderson, S. R. Ciesla, C. R. Carey, D. M. Raja, S. “A Powertrain Simulation for Engine Control System Development” SAE Paper No. 962171 1996
- Mo, C. Y. Beaumount, A. J. Powell, N. N. “Active Control of Driveability” SAE Paper No. 960046 1996
- Blumberg, P. N. “Powertrain Simulation: A Tool for the Design and Evalution of Engine Control Strategies in Vehicle” SAE Paper No. 760158 1976
- Post, K. et al “Vehicle Characterization and Fuel Consumption Prediction Using Maps and Power Demand Models” Int. J. of Vehicle Design 72 92 1985
- Yamashita, S. et al “Development of an Analysing System for Powertrain Performance” JSAE Review 28 34 1993
- Chana, H. E. Fedewa, W. L. Mohoney, J. E. “An Analytical Study of Transmission Modifications as Related to Vehicle Performance and Economy” SAE Paper No. 770418 1977
- Wheeler, D. B. “Application of Motor Truck Components” SAE Paper No. 650622 1965
- Fisher, W. “Performance Effects of Vehicle Variables” SAE Paper No. 730002 1973
- Dornfeld, K. A. “Transmission Transients Produced in Range Shifting- A Digital Computer Simulation” SAE Paper No. 710246 1971
- Arsie, I. Pianese, C. Rizzo, G. Flora, R. Serra, G. “A Computer Code for S. I. Engine Control and Powertrain Simulation” SAE Paper No. 2000-01-0938 March 2000
- Hong, C. W. “Dynamic Simulation of Road Vehicle Performance Under Transient Accelerating Conditions” Proceeding of the IMechE, Paper 004494 11 12 210 1996
- Mencik, Z. Tobler, W. E. Blumberg, P. N. “Simulation of Wide-Open Throttle Vehicle Performance” SAE Paper No. 780289 1978
- Anthony, J. W. Moskwa, J. J. Danielson, E. “Powertrain Simulation of the M1A1 Abrams Using Modular Model Components” SAE Paper No. 980926 1998
- Karlsson, J. Jacobsson, B. “Optimal Control of an Automotive Powertrain System for Increased Driveability” Proceedings of AVEC 2000, 5th Int. Symp. On Advanced Vehicle Control August 2000
- Hwang, S. J. Chen, J. S. Liu, L. Ling, C. C. “Modeling and Simulation of a Powertrain-Vehicle System With Automatic Transmission” Int. J. of Vehicle Design 23 145 160 2000
- Ercole G. Mattiazzo G. Mauro S. Velardocchia M. “Co-operating Clutch and Engine Control for Servoactuated Shifting Through Fuzzy Supervisor” SAE Paper No. 1999-01-0746 1999
- Dugoff, H. Fancher, P. S. Segal, L. “Tire Performance Characteristics Affecting Vehicle Response To Steering and Braking Control Outputs” Highway Safety Research Institute The University of Michigan 1969
- Moskwa J. J. “Automotive Engine Modeling for Real Time Control” Department of Mechanical Engineering, M.I.T. 1988
- Heywood J. B. “Internal Combustion Engine Fundamentals” Mc Graw_Hill, Inc. 1988
- Aquino, C. F. “Transient A/F Control Characteristicsof the 5 Liter Central Fuel Injection Engine” SAE Paper No. 810494 1981
- Neyachenko I. I. “Method of A/F Control During SI Engine Cold Start” SAE Paper No. 981171 1998
- Leone D. M. Dodge L. G. “Model Based Control and Cylinder-Event-Based Logic for an Ultra3Low Emissions Vehicle” SAE Paper No. 970531 1997
- Shaylor P. J. Teo Y. C. “Fuel Transport Characteristics of Spark Ignition Engines for Transient Fuel Compensation” SAE Paper No. 950067 1995
- Dobner D. J. “A Mathematical Engine Model for Dynamic Engine Control” SAE Paper No. 800054 1980
- Cho D. Hedrick J. K. “Automotive Powertrain Modeling for Control” Transaction of the ASME 111 Dec. 1989
- Hendricks E. Sorenson S. C. “Mean Value Modeling of Spark Ignition Engines” SAE Paper No. 900616 1990
- Stefanopoulou A. G. Cook J. A. “Control Oriented Model of a Dual Equal Variable Cam Timing Spark Ignition Engine” ASME Journal of Dynamic Systems, Measurement and Control 120 June 1998
- Hariri B. Shenton A. T. “Parameter Identification, Estimation and Dynamometer Validation of the Non-Linear Dynamics of an Automotive Spark Ignition Engine” Journal of Vibration and Control Jan. 1998
- Aslani A.R. “Dynamic Modeling Of Port Fuel Injection Engines with Sensitivity Analysis” IRAN University of Science and Technology (IUST) 2002
- Shahbakhti M. “Dynamic Modeling Of MPFI Engines For Air Fuel Ratio Control During Cold Start and Warm up Conditions” K.N.T. University of Technology 2002
- Runde, J. “Modeling and Control of an Automatic Transmission” Dept. of Mech. Eng., MI. T. Jan 1986
- Wong, J. Y. “Theoty of Ground Vehicle 2nd John Wiley & Sons Inc. 1993
- “Vehicle Acceleration Measurment” SAE Standard No. J1491