Catalyst light off transitions in a gasoline engine using model predictive control
First Claim
1. A system comprising:
- a catalyst light-off circuit configured to selectively generate a first signal based on an engine coolant temperature and an estimated exhaust enthalpy;
a setpoint circuit configured to selectively initiate a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy;
a first model predictive control (MPC) circuit configured to;
predict an exhaust enthalpy based on a model of an engine and multiple sets of possible target values;
generate a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and
select a set of possible target values from the multiple sets of possible target values based on the respective costs; and
an actuator circuit configured to adjust an actuator of the engine based on at least one of the target values from the selected set of possible target values.
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Accused Products
Abstract
A system includes a catalyst light-off module that selectively generates a first signal based on an engine coolant temperature and an estimated exhaust enthalpy, a setpoint module that selectively initiates a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy, and a first model predictive control (MPC) module that generates predicted parameters based on a model of an engine and a set of possible target values, generates a cost for the set of possible target values based on the predicted parameters and the desired exhaust enthalpy, and selects the set of possible target values from multiple sets of possible target values based on the cost. The system also includes an engine actuator module that adjusts an actuator of the engine based on at least one of the target values.
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Citations
14 Claims
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1. A system comprising:
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a catalyst light-off circuit configured to selectively generate a first signal based on an engine coolant temperature and an estimated exhaust enthalpy; a setpoint circuit configured to selectively initiate a catalyst light-off period in response to receiving the first signal and that generates a desired exhaust enthalpy; a first model predictive control (MPC) circuit configured to; predict an exhaust enthalpy based on a model of an engine and multiple sets of possible target values; generate a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and select a set of possible target values from the multiple sets of possible target values based on the respective costs; and an actuator circuit configured to adjust an actuator of the engine based on at least one of the target values from the selected set of possible target values. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method comprising:
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selectively generating a first signal based on an engine coolant temperature and an estimated exhaust enthalpy; selectively initiating a catalyst light-off period in response to receiving the first signal; selectively generating a desired exhaust enthalpy; generating multiple sets of possible target values; predicting an exhaust enthalpy based on a model of an engine and the multiple sets of possible target values; generating a respective cost for each of the sets of possible target values based on differences between the predicted exhaust enthalpy and the desired exhaust enthalpy; and selecting a set of possible target values from the multiple sets of possible target values based on the respective costs; and adjusting an actuator of the engine based on at least one of the target values from the selected set of possible target values. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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Specification