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Simulation Techniques for Automotive Subsystems
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Abstract
There is a need for simulation to provide verification of an overall automotive system, with interacting components. Numerical methods for simulation in specific disciplines need to be understood and incorporated in the system-level framework. The paper surveys the state of the art for automotive subsystem simulation with emphasis on control applications.
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Citation
Broucke, M., "Simulation Techniques for Automotive Subsystems," SAE Technical Paper 930205, 1993, https://doi.org/10.4271/930205.Also In
References
- Baumgarte, J. ““Stabilization of Constraint and Integrals of Motion in Dynamical Systems,” Comput. Methods Appl. Mech. Eng. 1 1 16 1972
- Brenan, K.E. Campbell, S.L. Petzold, L.R. The Numerical Solution of Initial Value Problems in Differential-Algebraic Equations North Holland, New York 1989
- Campbell, S.L Leimkuhler, B. “Differentiation of Constraints in Differential Algebraic Equations,” Mech. Struct. & Mach. 19 1 19 39 1991
- Dobner, D.J. “A Mathematical Engine Model for Development of Dynamic Engine Control,” SAE Paper 800054 1980
- Enright, W.H. “Numerical Methods for Systems of Initial Value Problems - The State of the Art,” Computer-Aided Analysis and Optimization of Mechanical System Dynamics Haug J. Springer, Berlin 309 322 1984
- Fehlberg, E. Computing 6 61 71 1970
- Fuhrer “Stiff Differential Equations in Vehicle Dynamics Proc. 2nd Workshop on Road Vehicles and Related Mathematics 131 141 Kluwer Academic Publishers 1989
- Fuhrer C. Leimkuhler, B.J. “Numerical Solution Of Differential-Algebraic Equations for Constrained Mechanical Motion” Numerischk Mathematik 59 1 55 69 1991
- Fuhrer, C. Schwertassek, R. “Generation and Solution of Multibody System Equations,” International Journal of Non-Linear Mechanics 25 2-3 127 41 1991
- Fuhrer, C. Wallrap “A Computer-Oriented Method for Reducing Linearized Multibody System Equations by Incorporating Constraints,” Computer Methods in Applied Mechanics and Engineering 46 169 1984
- Gear, C.W. “Numerical Initial Value Problems in Ordinary Differential Equations” Prentice Hall Englewood Cliff, N.J. 1971
- Gear, C.W. “Differential-Algebraic Equation Index Transformations,” SIAM J. Sci. Stat. Comput. 7 39 47 1988
- Gear, C.W. Gupta, G.K. Leimkuhler, B. “Automatic Integration of Euler-Lagrange Equations with Constraints,” Journal of Computat. Appi. Math 12-13 77 90 1985
- Hairer, E. Norsett, S.P. Wanner, G. Solving Ordinary Differential Equations I Springer 1987
- Hairer, E. Wanner, G. Solving Ordinary Differential Equations II Springer 1991
- Haug, E.J. “Implicit Numerical Integration of Constrained Equations of Motion Via Generalized Coordinate Partitioning,” Journal of Mechanical Design 114 2 June 1992
- Haug, E.J. Deyo Real-Time Integration Methods for Mechanical System Simulation NATO ASI Series F69 Springer, Berlin 1990
- Hazell, P.A. Flower, J.O. “Sampled-Data Theory Applied to the Modeling and Control Analysis of Compression Ignition Engines - Part I” Int. J Control 13 3 549 562 1971
- Hindmarsh, A.C. “LSODE and LSODI1 Two New Initial Value Ordinary Differential Equation Solvers,” ACM-SIGNUM Newsletter 15 1011 1980
- Hindmarsh, A.C. “ODEPACK, A Systematized Collection of ODE SOlvers,” Scientific Computing Stepleman R.S. el al. North-Holland, Amsterdam 1983
- Kane, T.R. Levinson, D.A. Dynamics Theory and Applications McGraw Hill New York 1985
- Kiencke, U. Dais, S. Litschel, M. “Automotive Serial Controller Area Network” SAE Paper 860391 1986
- Kiencke, U. “A View of Automotive Control Systems” IEEE Control Systems Magazine 8 4 11 19 August 1988
- Kortum, W. Schiehler, W. “General Purpose Vehicle System Dynamics Software Based on Multibody Formalisms,” Vehicle System Dynamics 14 4-6 229 263 June 1985
- Kortum, Sharp “A Report on the State of Affairs on Application of Multibody Computer Codes to Vehicle System Dynamics,” Vehicle System Dynamics 20 177 1991
- Liu, Layland “Scheduling Algorithms for Multiprogramming in a Hard Real-Time Environment,” Journal of the ACM 20 1 46 61 1973
- Moskwa, J.J. Hedrick, J.K “Automotive Engine Modeling for Real Time Control Application,” Proc. 1987 Amer. Contr. Conf. 1987
- Moskwa, J.J. Hedrick, J.K. “Modeling and Validation of Automotive Engines for Control Algorithm Development,” Trans. ASME 114 278 285 June 1992
- Petzold, L.R. “Automatic Selection of Methods for Solving Stiff and Nonstiff Systems of Ordinary Differential Equations,” SIAM J. Sci. Stat. Comp. 4 136 148 1983
- Press, W.H. Flannery, B.P. Teukolsky, S.A. Vetterling, W.T. Numerical Recipes in C Cambridge University Press 1988
- Ralston, A. A First Course in Numerical Analysis McGraw-Hill New York 1965
- Shampine, F. Gordon, M. Computer Solution of Ordinary Differential Equations: The Initial Value Problem Freeman 1975
- Shampine, L. Watts, H. “Practical Solution of Ordinary Differential Equations by RungeKutta Methods,” Sandia Labs Tech. Rep. SAND 76-0585 1976
- Simeon, B. Fuhrer, C Rentrop, P. “Differential Algebraic Equations on Vehicle System Dynamics” Surveys on Mathematics for Industry 1 37 Berlin, Springer 1991
- Wallrapp, Schwertassek “Representation of Geometric Stiffening in Multibody System Simulation” Int. Journal of Numerical Methods in Engineering 32 1833 1991