References
- Audsley, N. C., Burns, A., Richardson, M. F. and Wellings, J. (1994). STRESS: a simulator for hard real-time systems. Software-Practice and Experience 24, 6, 543-564 https://doi.org/10.1002/spe.4380240603
- Cervin, A., Henriksson, D., Lincoln, B., Eker, J. and Arzen, K. (2003). Analysis and simulation of controller timing. IEEE Control Systems Magazine 23, 3, 16−30 https://doi.org/10.1109/MCS.2003.1200240
- Choi, J., Shin, M. and Sunwoo, M. (2004). Development of timing analysis tool for distributed real-time control system. Int. J. Automotive Technology 5, 4, 269-276
- Douglass, B. P. (1999). Doing Hard Time-Developing Real-Time Systems with UML, Objects. Frameworks, and Patterns. Addison-Wesley, Massachusetts
- Eker, J. and Cervin, A. (1999). A Matlab toolbox for realtime and control systems co-design. Proc. 6th Int. Conf. Real-Time Computing Systems and Applications, IEEE Computer Society, 320−328
- Englehart, M. and Jackson, M. (1994). Control H: a 4th generation language for real-time GN&C applications. Proc. IEEE Symp. Computer Aided Control System Design
- Gu, Z., Wang, S., Kim, J. C. and Shin, K. G. (2004). Integrated modelling and analysis of automotive embedded control systems with real-time scheduling. World Cong. SAE Int., 115−122
- Henriksson, D., Cervin, A. and Arzen, K. (2002). Truetime: simulation of control loops under shared computer resources. 15th IFAC World Cong. Automatic Control, Barcelona, Spain. 417−422
- Henzinger, T. A., Kirsch, C. M., Sanvido, M. A. A. and Pree, W. (2003). From control models to real-time code using giotto. IEEE Control Systems Magazine, 50−64
- Hodge, G., Ye, J. and Stuart, W. (2004). Multi-target modeling for embedded software development for automotive applications. World Cong. SAE Int., In- Vehicle Networks and Software, Electrical Wiring Harnesses, and Electronics and Systems Reliability. 85−90
- Kopetz, H. (1997). Real-Time Systems. Kluwer Academic Publishers, Massachusetts
- Lee, W., Park, S. and Sunwoo, M. (2004a). Towards a seamless development process for automotive enginecontrol system. Control Engineering Practice, 12, 977−986 https://doi.org/10.1016/j.conengprac.2003.11.016
- Lee, W., Shin, M. and Sunwoo, M. (2004b). Targetidentical rapid control prototyping platform for modelbased engine control. IMechE, Part D, 218, 755−765 https://doi.org/10.1243/0954407041580049
- Liu, J. W. S. (2000). Real-Time Systems. Prentice Hall. New Jersey
- Mitchell, E. E. L. and Gauthier, J. S. (1986). ACSL: Advanced Continuous Simulation Language-User Guide and Reference Manual. Mitchell & Gauthier Associates. Concord MA
- RebeschieB, S. (1999). MIRCOS-Microcontroller-based real time control system toolbox for use with Matlab/ Simulink. Proc. IEEE Int. Symp. CACSD, Hawaii, USA, 243−248
- Song, J., Lee, W. and Sunwoo, M. (2003). Development of a rapid control prototyping platform for engine control system. Trans. Korean Society of Automotive Engineers 11, 1, 160−165
- Storch, M. F. and Liu, J. W.-S. (1996). DRTSS: A simulation framework for complex real-time systems. Proc. 2nd IEEE Real-Time Technology and Applications Symp., 160−169
- Toeppe, S., Ranville, S., Bostic, D. and Wang, Y. (1999). Practical validation of model based code generation for automotive applications. Proc. 18th AIAA/IEEE/SAE Digital Avionics System Conf., 10.A.3-1-10.A.3- 14
- Torngren, M. and Redell, O. (2000). A modelling framework to support the design and analysis of distributed real-time control systems. Microprocessors and Microsystems, 24, 81-93 https://doi.org/10.1016/S0141-9331(99)00070-8
- UML Notation Guide. Version 1. 1. (1997). Object Management Group, doc. no. ad/97-08-05.http://www.rational.com/uml
- Vestal, S. (1994). Integrating control and software views in a CACE/CASE toolset. IEEE/IFAC Joint Symp. Computer Aided Control System Design for Control Systems, Tucson, AZ, USA, 353−358
- Zhu, J. (1994). Design and simulation of hard real-time applications. Proc. 27th Annual Simulation Symp., 217−225