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Air-to-Fuel and Dual-Fuel Ratio Control of an Internal Combustion Engine

Journal Article
2009-01-2749
ISSN: 1946-3936, e-ISSN: 1946-3944
Published November 02, 2009 by SAE International in United States
Air-to-Fuel and Dual-Fuel Ratio Control of an Internal Combustion Engine
Sector:
Citation: Pace, S. and Zhu, G., "Air-to-Fuel and Dual-Fuel Ratio Control of an Internal Combustion Engine," SAE Int. J. Engines 2(2):245-253, 2010, https://doi.org/10.4271/2009-01-2749.
Language: English

References

  1. Ikoma, Takuya Abe, Shizuo Sonoda, Tukihiro Suzuki, Hisao Suzuki, Yuichi Basaki, Masatoshi “Development of V-6 3.5-liter Engine Adopting New Direct Injection System,” SAE 2006-01-1259
  2. Bromberg, Leslie Cohn, Daniel Heywood, John “Optimized Fuel Management System for Direct Injection Ethanol Enhancement of Gasoline Engines” US patent application 2006/0102136
  3. Rivard, J. G. “Closed-loop Electronic Fuel Injection Control of the IC Engine,” Society of Automotive Engineers 1973
  4. Cassidy, J. F. et al “On the Design of Electronic Automotive Engine Controls using Linear Quadratic Control Theory,” IEEE Trans on Control Systems AC-25 October 1980
  5. Powers, W. E. “Applications of Optimal Control and Kalman Filtering to Automotive Systems,” International Journal of Vehicle Design, vol. Applications of Control Theory in the Automotive Industry 1983
  6. Benninger, N. F. et al “Requirements and Performance of Engine Management Systems under Transient Conditions,” Society of Automotive Engineers 1991
  7. Onder, C. H. et al “Model-Based Multivariable Speed and Air-to-Fuel Ratio Control of an SI Engine,” Society of Automotive Engineers 1993
  8. Choi, S. B. et al “An Observer-based Controller Design Method for Automotive Fuel-Injection Systems,” American Controls Conference 1993 2567 2571
  9. Kume, T. et al “Combustion Technologies for Direct Injection SI Engine,” Society of Automotive Engineers 1996
  10. Zhu, G. et al “Combustion Characteristics of a Single-Cylinder Engine Equipped with Gasoline and Ethanol Dual-Fuel Systems,” SAE 2008-01-1767
  11. Khalil, H. Nonlinear Systems 3 ed. Prentice Hall 2002
  12. Won, M. et al “Air to Fuel Ratio Control of Spark Ignition Engines Using Dynamic Sliding Mode Control and Gaussian Neural Network,” American Controls Conference 1995 2591 2595
  13. Souder, J. et al “Adaptive Sliding Mode Control of Air-Fuel Ratio in Internal Combustion Engines,” International Journal of Robust and Nonlinear Control 14 2004
  14. Luenberger, D. G. “Observers for Multivariable Systems,” IEEE Trans on Automatic Control AC-11 190 197 1966

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