[특허]Torque based air per cylinder and volumetric efficiency determination

Torque based air per cylinder and volumetric efficiency determination 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	F02D-009/04 F02D-009/00 G06F-019/00
출원번호	US-0737190 (2007-04-19)
등록번호	US-7440838 (2008-10-21)
발명자 / 주소	Livshiz,Michael Kaiser,Jeffrey M. Wiggins,Layne K. Jacobs,John A. Jess,Richard B. Worthing,James L.
출원인 / 주소	GM Global Technology Operations, Inc.
인용정보	피인용 횟수 : 28 인용 특허 : 10

초록 ▼

A method of regulating operation of an internal combustion engine includes monitoring a manifold absolute pressure (MAP) of the engine, determining an engine torque based on the MAP, estimating an air per cylinder (APC) based on the torque, determining a volumetric efficiency of the engine based on

대표청구항 ▼

What is claimed is: 1. A method of regulating operation of an internal combustion engine, comprising: monitoring a manifold absolute pressure (MAP) of said engine; determining an engine torque based on said MAP; estimating an air per cylinder (APC) based on said torque; determining a volumetric efficiency of said engine based on said APC; and regulating operation of said engine based on said volumetric efficiency. 2. The method of claim 1 wherein operation of said engine is further regulated based on said APC. 3. The method of claim 1 further comprising: determining a correction factor based on an actual APC; and correcting said APC based on said correction factor. 4. The method of claim 3 further comprising determining whether said engine is operating in steady-state, wherein said step of correcting said APC is executed when said engine is operating in steady-state. 5. The method of claim 1 further comprising monitoring an intake air temperature, wherein said volumetric efficiency is further based on said MAP and said intake air temperature. 6. The method of claim 1 wherein said step of determining an engine torque includes processing said MAP through a MAP-based torque model. 7. The method of claim 1 wherein said step of estimating an APC includes processing said engine torque through an inverted APC-based torque model. 8. A system for regulating operation of an internal combustion engine, comprising: a first module that determines an engine torque based on a manifold absolute pressure (MAP) of said engine; a second module that estimates an air per cylinder (APC) based on said torque; a third module that determines a volumetric efficiency of said engine based on said APC; and a fourth module that regulates operation of said engine based on said volumetric efficiency. 9. The system of claim 8 further comprising a MAP sensor that monitors a said MAP of said engine. 10. The system of claim 8 wherein operation of said engine is further regulated based on said APC. 11. The system of claim 8 further comprising: a fifth module that determines a correction factor based on an actual APC; and a sixth module that corrects said APC based on said correction factor. 12. The system of claim 11 further comprising a seventh module that determines whether said engine is operating in steady-state, wherein said sixth module corrects said APC when said engine is operating in steady-state. 13. The system of claim 8 further comprising a sensor that monitors an intake air temperature, wherein said volumetric efficiency is further based on said MAP and said intake air temperature. 14. The system of claim 8 wherein said first module determines said engine torque by processing said MAP through a MAP-based torque model. 15. The system of claim 8 wherein said second module estimates said APC by processing said engine torque through an inverted APC-based torque model. 16. A method of regulating operation of an internal combustion engine, comprising: monitoring a manifold absolute pressure (MAP), an actual air per cylinder (APC) and an intake air temperature of said engine; calculating an engine torque based on said MAP by processing said MAP through a MAP-based torque model; calculating an estimated APC based on said torque by processing said engine torque through an inverted APC-based torque model; determining a volumetric efficiency of said engine based on said estimated APC; and regulating operation of said engine based on said volumetric efficiency. 17. The method of claim 16 wherein operation of said engine is further regulated based on said estimated APC. 18. The method of claim 16 further comprising: determining a correction factor based on said actual APC; and correcting said estimated APC based on said correction factor. 19. The method of claim 18 further comprising determining whether said engine is operating in steady-state, wherein said step of correcting said estimated APC is executed when said engine is operating in steady-state. 20. The method of claim 16 wherein said volumetric efficiency is further based on said MAP and said intake air temperature.

이 특허에 인용된 특허 (10)

Stroh,David J.; Folkerts,Charles H., Dynamical torque control system.
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Hurley, Richard William; Hughes, Martin David, Engine fuelling rate control.
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Bowler ; Lauren L. ; Lahiff ; John E., Fuel control system with calibration learning capability for motor vehicle internal combustion engine.
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Lahti,John L.; Moskwa,John J., Internal combustion engine control system.
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Mladenovic,Ljubisa M., Mass airflow rate per cylinder estimation without volumetric efficiency map.
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Stroh, David J., Method and apparatus for predicting and controlling manifold pressure.
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Leone,Thomas G.; Stein,Robert A.; Lyjak,Jeffrey C., Method for controlling injection timing of an internal combustion engine.
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Suhre, Blake R.; Haddad, Robert E., Method for controlling throttle air velocity during throttle position changes.
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Xiao,Yun, Method for dynamic mass air flow sensor measurement corrections.
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Tang Dah-Lain (Canton MI), Prediction method for engine mass air flow per cylinder.
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이 특허를 인용한 특허 (28)

Matthews, Gregory P.; Liu, Zhiping Steven; Brennan, Daniel G., Air per cylinder determination systems and methods.
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Storch, Sharon L.; Shore, James A.; Wong, Kevin C.; Jin, Ning, Calibration systems and methods for model predictive controllers.
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Brennan, Daniel G.; Kaiser, Jeffrey M.; Snyder, Bryan R.; York, Gregory J.; Shields, Anne M.; Wozniak, Leonard G., Cam phaser compensation in a hybrid vehicle system.
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Beikmann, Randall S.; Wagh, Nitish J., Combination cylinder state and transmission gear control systems and methods.
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Rayl, Allen B.; Beikmann, Randall S.; Naik, Sanjeev M., Cylinder activation and deactivation control systems and methods.
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Beikmann, Randall S., Cylinder activation/deactivation sequence control systems and methods.
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Phillips, Andrew W., Cylinder control systems and methods for discouraging resonant frequency operation.
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Rayl, Allen B., Cylinder deactivation pattern matching.
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Li, Jinbiao; Liu, Haifeng, Cylinder firing fraction determination and control systems and methods.
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Pochner, Klaus; Whitney, Christopher E., Engine control systems and methods for future torque request increases.
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Wagh, Nitish J.; Beikmann, Randall S., Firing pattern management for improved transient vibration in variable cylinder deactivation mode.
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Hayman, Alan W.; McAlpine, Robert S., Fuel consumption based cylinder activation and deactivation control systems and methods.
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Brennan, Daniel G.; Matthews, Gregory P.; Wiggins, Layne K., Intake runner temperature determination systems and methods.
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Wang, Wenbo; Wiggins, Layne K.; Kaiser, Jeffrey M.; Daniels, Chao F, Method and apparatus for operating an engine using an equivalence ratio compensation factor.
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Prunier, Thierry, Method for controlling a motor vehicle using a network of neurones.
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Ruggiano, Renzo, Method for controlling the fuel supply in a cylinder of a four-stroke internal combustion engine with controlled ignition.
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Müller, Martin; Pfeiffer, Jeffrey M., Method for determining an engine response characteristic.
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Long, Ruixing; Jin, Ning, Model predictive control systems and methods for increasing computational efficiency.
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Wong, Kevin C.; Long, Ruixing, System and method for adjusting weighting values assigned to errors in target actuator values of an engine when controlling the engine using model predictive control.
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Beikmann, Randall S., System and method for controlling a firing sequence of an engine to reduce vibration when cylinders of the engine are deactivated.
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Brennan, Daniel G.; Naik, Sanjeev M., System and method for controlling spark timing when cylinders of an engine are deactivated to reduce noise and vibration.
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Rayl, Allen B., System and method for deactivating a cylinder of an engine and reactivating the cylinder based on an estimated trapped air mass.
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Cygan, Jr., Gary Robert; Genslak, Robert J., System and method for increasing the temperature of a catalyst when an engine is started using model predictive control.
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Li, Shifang; Wang, Yue-Yun; Chang, Chen-Fang; Whitney, Christopher E., System and method for predicting a pedal position based on driver behavior and controlling one or more engine actuators based on the predicted pedal position.
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Liu, Zhiping Steven; Matthews, Gregory P.; Will, Anthony B., System and method for predicting parameters associated with airflow through an engine.
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Phillips, Andrew W., System and method for randomly adjusting a firing frequency of an engine to reduce vibration when cylinders of the engine are deactivated.
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Burleigh, Darrell W.; Beikmann, Randall S., Systems and methods for controlling cylinder deactivation periods and patterns.
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Brennan, Daniel G.; Matthews, Gregory P.; Wiggins, Layne K., Volumetric efficiency determination systems and methods.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

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Torque based air per cylinder and volumetric efficiency determination 원문보기