Method for estimating engine cylinder variables using second order sliding modes
First Claim
1. A method for estimating residual gas in each cylinder of an internal combustion engine, the method comprising:
- estimating total mass flow entering into cylinders of the engine by processing intake pressure measurements;
estimating total mass flow exiting from cylinders of the engine by processing exhaust pressure measurements;
determining mass flow into each cylinder by integrating the estimated total mass flow entering into the cylinders based on starting and ending times for induction strokes of each cylinder;
determining mass flow exiting from each cylinder by integrating the estimated total mass flow exiting from the cylinders based on starting and ending times for exhaust strokes of each cylinder; and
determining residual gas in each one of the cylinders by subtracting from the integrally determined mass flow entering into one of the cylinders the integrally determined mass flow exiting from the one of the cylinders.
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Abstract
A method for real time estimation of air charge, residual gas, and backflow in an engine cylinder, i.e., in-cylinder variables, by estimating total mass flow into and out of the cylinders. These estimations are then integrated based on starting and ending times for induction strokes of each cylinder to calculate air charge and residual gas for each cylinder. The method uses intake and exhaust manifold pressure measurements to estimate the in-cylinder variables. The intake and exhaust manifold pressure measurements are processed through the ideal gas law to dynamically determine the net change in the amount of gas inside the manifolds in order to estimate the in-cylinder variables on-line.
32 Citations
13 Claims
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1. A method for estimating residual gas in each cylinder of an internal combustion engine, the method comprising:
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estimating total mass flow entering into cylinders of the engine by processing intake pressure measurements;
estimating total mass flow exiting from cylinders of the engine by processing exhaust pressure measurements;
determining mass flow into each cylinder by integrating the estimated total mass flow entering into the cylinders based on starting and ending times for induction strokes of each cylinder;
determining mass flow exiting from each cylinder by integrating the estimated total mass flow exiting from the cylinders based on starting and ending times for exhaust strokes of each cylinder; and
determining residual gas in each one of the cylinders by subtracting from the integrally determined mass flow entering into one of the cylinders the integrally determined mass flow exiting from the one of the cylinders. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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3. The method of claim 2, wherein the step of estimating total mass flow entering into the engine cylinders results in the following equation:
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where {overscore ({dot over (m)})}ct in is the estimated total mass flow entering the engine cylinders, mt equals throttle body mass flow, Vi equals intake manifold volume, R equals a universal constant, Ti equals intake manifold temperature, and ui equals an intermediate variable based on ui={dot over (σ
)}i+{dot over (P)}i.
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4. The method of claim 3, wherein estimating total mass flow exiting from the engine cylinders results in the following equation:
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where {overscore ({dot over (m)})}ct out is the estimated total mass flow exiting the engine cylinders, me equals exhaust mass flow, Ve equals exhaust manifold volume, R equals a universal constant, Te equals intake manifold temperature, and ue equals an intermediate variable based on ue={dot over (σ
)}e+Pe.
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5. The method of claim 4, wherein determining mass flow entering into each cylinder by integrating the estimated total mass flow entering into the cylinders based on starting and ending times for induction strokes of each cylinder results in the following equation:
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where tsj in ,k and tejin ,k represent the starting and the ending times of the induction strokes for the jth cylinder at the kth step.
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6. The method of claim 5, wherein determining mass flow exiting from each cylinder by integrating the estimated total mass flow exiting from the cylinders based on starting and ending times for induction strokes of each cylinder results in the following equation:
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where tsj in ,k and tejin ,k represent the starting and the ending times of the induction strokes for the jth cylinder at the kth step.
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7. The method of claim 6, wherein determining residual gas in each cylinder by subtracting from the integrally determined mass flow entering into one of the cylinders the integrally determined mass flow exiting from the one of the cylinders results in the following equation:
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8. The method of claim 1, wherein determining residual gas in each one of the cylinders includes subtracting from the integrally determined mass flow entering into one of the cylinders the integrally determined mass flow exiting from the one of the cylinders and adding the fuel mass entering into the one of the cylinders.
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9. A method for estimating air charge in each cylinder of an internal combustion engine, the method comprising:
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using second order sliding modes to differentiate intake and exhaust pressures;
estimating total mass flow entering into cylinders of the engine by processing the intake and exhaust pressures; and
determining mass flow into each cylinder by integrating the estimated total mass flow entering into the cylinders based on starting and ending times for induction strokes of each cylinder. - View Dependent Claims (10, 11, 12, 13)
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11. The method of claim 10, wherein the step of estimating total mass flow entering into the engine cylinders results in the following equation:
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where {overscore ({dot over (m)})}ct in is the estimated total mass flow entering the engine cylinders, mt equals throttle body mass flow, Vi equals intake manifold volume, R equals a universal constant, Ti equals intake manifold temperature, and ui equals an intermediate variable based on ui={dot over (σ
)}i+Pi.
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12. The method of claim 11, wherein determining mass flow entering into each cylinder by integrating the estimated total mass flow entering into the cylinders based on starting and ending times for induction strokes of each cylinder results in the following equation:
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where tsj in ,k and tejin ,k represent the starting and the ending times of the induction strokes for the jth cylinder at the kth step.
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13. The method of claim 9 further comprising:
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estimating total mass flow exiting from cylinders of the engine;
determining mass flow exiting from each cylinder by integrating the estimated total mass flow exiting from the cylinders based on starting and ending times for induction strokes of each cylinder; and
determining residual gas in each one of the cylinders by subtracting from the integrally determined mass flow entering into one of the cylinders the integrally determined mass flow exiting from the one of the cylinders.
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Specification