이 특허를 인용한 특허 (49)

1. Wang, Wenbo; Van Gilder, John F.; Slimmer Velez, Jill A; Mc Lain, Kurt D.; Kropinski, Michael A., Adaptive barometric pressure estimation in which an internal combustion engine is located.

   상세보기
2. Kotwicki Allan Joseph ; Gates Freeman Carter ; Russell John David, Air flow and EGR flow estimation.

   상세보기
3. Turin, Raymond Claude; Zhang, Rong; Chang, Man Feng, Airflow estimation method and apparatus for internal combustion engine.

   상세보기
4. Wegerich, Stephan W., Complex signal decomposition and modeling.

   상세보기
5. Takamiya, Hideharu; Irie, Seiichiro; Kouda, Yutaka; Komoriya, Isao, Control for an internal-combustion engine.

   상세보기
6. Criddle, Mark Anderson; Brotherton, William Marc Edward, Crank case ventilation system.

   상세보기
7. Ruppel, Stefan; Özkaya, Yakup, Crank case ventilator.

   상세보기
8. Nagaishi, Hatsuo, Diagnosis system for valve system of internal combustion engine.

   상세보기
9. Fisher, C. Ross; Fisher, David G.; Yates, Kristian W.; Hoie, William A., Emission control valve for gas-fueled engines.

   상세보기
10. Yamada Masakazu,JPX ; Morishima Hideki,JPX ; Koike Satoshi,JPX ; Yukumoto Hideki,JPX ; Inoue Masaomi,JPX ; Kamiya Naoyuki,JPX, Engine control apparatus and method having cylinder-charged air quantity correction by intake/exhaust valve operation.

    상세보기
11. Russell,John David; Kotwicki,Allan Joseph; Rutkowski,Brian D., Engine method.

    상세보기
12. Fisher, C. Ross; Yates, Kristian W.; Fisher, David G.; Mansfield, George A., Fuel control system and method for gas engines.

    상세보기
13. Luley,Thomas Joseph; Goralski, Jr.,Christian Thomas; Johnson,Philip J.; Bellis,Andrew George; Horne,Gregory Scott, Fugitive hydrocarbon treatment module for internal combustion engine air intake system.

    상세보기
14. Pursifull, Ross Dykstra, Increasing crankcase ventilation flow rate via active flow control.

    상세보기
15. Wegerich, Stephan W., Inferential signal generator for instrumented equipment and processes.

    상세보기
16. Wegerich, Stephan W., Inferential signal generator for instrumented equipment and processes.

    상세보기
17. Gangopadhyay,Anupam, Intake oxygen estimator for internal combustion engine.

    상세보기
18. Lahti,John L.; Moskwa,John J., Internal combustion engine control system.

    상세보기
19. Herzog, James P., Kernel-based method for detecting boiler tube leaks.

    상세보기
20. Pfitz Manfred,DEX, Method and apparatus for determining the gas temperature in an internal combustion engine.

    상세보기
21. Kar,Krishnendu; Bagnasco,Andrew P.; Garcia,Sergio Eduardo; Himes,Edward George, Method and apparatus to control fuel metering in an internal combustion engine.

    상세보기
22. Wang, Yue-Yun; Haskara, Ibrahim, Method and apparatus to determine a cylinder air charge for an internal combustion engine.

    상세보기
23. Lee, Joonsuck, Method for compensating for valve lift deviation between engines equipped with CVVL mechanism.

    상세보기
24. Nitzke,Hans Georg; Rebohl,Thorsten; Jeschke,Jens, Method for determination of composition of the gas mixture in a combustion chamber of an internal combustion engine with exhaust gas recirculation and correspondingly configured control system for an.

    상세보기
25. Treinies Stefan,DEX ; Engl Maximilian,DEX ; Rosel Gerd,DEX, Method for determining an air mass flow into cylinders of an internal combustion engine with the aid of a model.

    상세보기
26. Müller, Martin; Pfeiffer, Jeffrey M., Method for determining an engine response characteristic.

    상세보기
27. Lee,Byungho; Gwidt,Jesse Michael, Method for determining intake port flow in an internal combustion engine.

    상세보기
28. Xiao,Yun, Method for dynamic mass air flow sensor measurement corrections.

    상세보기
29. Palazzi, Alessandro; Minichetti, Jean Charles, Method for estimating the filling of a cylinder in an internal combustion engine.

    상세보기
30. Amit K. Sanyal ; Gregory L. Ohl ; Chris D. Kapolnek ; Timothy A. Coatesworth, Method of determining barometric pressure for use in an internal combustion engine.

    상세보기
31. Olin, Peter M., Method of estimating gas pressure in an engine exhaust manifold.

    상세보기
32. Herzog, James P., Method of sequential kernel regression modeling for forecasting and prognostics.

    상세보기
33. Herzog, James P., Monitoring method using kernel regression modeling with pattern sequences.

    상세보기
34. Herzog, James P., Monitoring system using kernel regression modeling with pattern sequences.

    상세보기
35. Redon, Fabien G., Multiple path air mass flow sensor assembly.

    상세보기
36. Oeller Heinz,DEX, Process and arrangement for checking the operability of a secondary air pump in an internal-combustion engine.

    상세보기
37. Treinies Stefan,DEX ; Rosel Gerd,DEX ; Engl Maximilian,DEX, Process for model-assisted determination of the fresh-air mass flowing into the cylinders of an internal combustion eng.

    상세보기
38. Hines, J. Wesley, Robust distance measures for on-line monitoring.

    상세보기
39. Felix Moreno, Rodrigo, Single rail combined fuel injection.

    상세보기
40. Ofner, Bernd, Supercharged internal combustion engine and method for monitoring whether the crankcase vent has been connected.

    상세보기
41. Russell, John D.; Kotwicki, Allan Joseph; Gates, Freeman Carter, System and method for air flow and EGR flow estimation.

    상세보기
42. Russell, John D.; Kotwicki, Allan Joseph; Gates, Freeman Carter, System and method for air flow and EGR flow estimation.

    상세보기
43. Sisken, Kevin D., System for purging exhaust gases from exhaust gas recirculation system.

    상세보기
44. Herzog, James P., System of sequential kernel regression modeling for forecasting and prognostics.

    상세보기
45. Justice, Roy Dwayne, Systems and methods for determining and displaying volumetric efficiency.

    상세보기
46. Yu, Songping, Techniques for coordinated variable valve timing and electronic throttle control.

    상세보기
47. Morris, James Paul; Schneider, Charles, Techniques for delivering fuel to a piston aircraft engine.

    상세보기
48. Foong,John S.; Hoke,Jeffrey B., Volatile hydrocarbon adsorber unit.

    상세보기
49. Dennis C. Reed ; Peter James Maloney ; Jeffrey M. Pfeiffer, Volumetric efficiency compensation for dual independent continuously variable cam phasing.

    상세보기
더보기