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The disclosure describes systems and methods of detecting a misfire in a cylinder of an engine. Such systems and methods may include determining a standard deviation for a crank angle location in a chamber of the engine, determining a standard deviation of the peak pressure in a chamber of the engin

The disclosure describes systems and methods of detecting a misfire in a cylinder of an engine. Such systems and methods may include determining a standard deviation for a crank angle location in a chamber of the engine, determining a standard deviation of the peak pressure in a chamber of the engine. If the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle, or if the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure, an engine cylinder cut out check may be performed to identify one or more misfiring cylinders.

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1. A method of detecting a misfire in a cylinder of an engine comprising the steps of: determining a standard deviation of a peak pressure in a chamber of the engine;determining a standard deviation for a crank angle location;determining if the standard deviation for the peak pressure is greater tha

1. A method of detecting a misfire in a cylinder of an engine comprising the steps of: determining a standard deviation of a peak pressure in a chamber of the engine;determining a standard deviation for a crank angle location;determining if the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure;determining if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle; andperforming an engine cylinder cut out check. 2. The method of claim 1, further comprising the step of: identifying one or more misfiring cylinders. 3. The method of claim 2, further comprising the steps of: determining if the engine is operating in a steady state condition; anddetermining if the engine is operating within a predetermined range of a set of calibration parameters for the engine. 4. The method of claim 3, wherein the step of determining a standard deviation for a crank angle location is performed if the engine is operating in the steady state condition and the engine is operating within the predetermined range of the set of calibration parameters for the engine. 5. The method of claim 4, wherein the step of determining a standard deviation of the peak pressure is performed if the engine is operating in the steady state condition and the engine is operating within the predetermined range of the set of calibration parameters for the engine. 6. The method of claim 5, wherein the step of performing an engine cylinder cut out check is performed if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle, or the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure. 7. The method of claim 6, further comprising the step of: determining if the engine is capable of running a cylinder cut out check. 8. The method of claim 7, further comprising the step of: sending a warning message to a user and initiate the cylinder cut out check when the engine is operating at a low idle if the engine is not capable of running a cylinder cut out check at a present time. 9. The method of claim 8, further comprising the step of: sending a warning message to the user and initiate the cylinder cut out check when the engine is operating at a low idle if no misfiring cylinders have been identified. 10. The method of claim 9, further comprising the step of: sending a message to an user identifying the one or more misfiring cylinders, if one or more misfiring cylinders have been identified. 11. The method of claim 10, wherein the chamber is a pre-chamber of the engine. 12. The method of claim 10, wherein the chamber is a main chamber of the engine. 13. The method of claim 10, wherein the cylinder cut out check is performed by maintaining a constant power output of the engine; stopping a power output of a cylinder under test;monitoring a fuel increase needed to maintain the constant power; andcomparing the fuel increase needed for each cylinder under test to a mean output for all of the cylinders. 14. The method of claim 10, wherein the cylinder cut out check is performed by: maintaining a constant fuel flow to the main chamber and pre-chamber of each cylinder;stopping a power output of a cylinder under test;monitoring a total engine output power; andcomparing a decrease in a percent of engine output power to a mean engine output power. 15. The method of claim 13, wherein the cylinder cut out check is performed at a partial load condition. 16. An engine control module configured to detect a misfire in a cylinder of an engine, the engine control module comprising: a memory containing predetermined calibration parameters;the engine control module programmed to: determine if the engine is operating in a steady state condition;determine if the engine is operating within a predetermined range of a set of calibration parameters for the engine;initiate a first detection mode, if the engine is operating in the steady state condition and the engine is operating within the predetermined range of the set of calibration parameters; wherein, when the engine control module is in the first detection mode, the engine control module is configured to calculate a standard deviation for a crank angle location, and the engine control module is configured to determine if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle; andwherein, when the engine control module is in the first detection mode, the engine control module is configured to calculate a standard deviation of a peak pressure in a chamber of the engine, and determining if the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure; andinitiate a second detection mode of an engine cylinder cut out check, if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle, or the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure. 17. The engine control module of claim 16, wherein during the engine cylinder cut out check, the engine control module is further configured to command the engine to operate at a partial load or a low idle condition, where the engine control module alternately turns off each cylinder in a sequence by ceasing fuel delivery to each pre-chamber by deactivating a pre-chamber fuel delivery valve or by not to initiate a spark in each pre-chamber, while maintaining an engine speed. 18. The engine control module of claim 17, wherein the engine control module is further configured to identify one or more misfiring cylinders by determining that when a first cylinder is turned off, a first fuel increase to the engine is needed to maintain a constant power, and when a second cylinder is turned off, a second fuel increase to the engine is needed to maintain a constant power, such that when the first fuel increase is less than the second fuel increase, a misfiring cylinder is identified as the first cylinder. 19. The engine control module of claim 18, wherein the engine is configured to maintain a constant power level by increasing fuel delivery to remaining cylinders of a plurality of cylinders which are still firing. 20. A system configured to detect a misfire in a cylinder of an engine, comprising: an engine;a plurality of cylinders located in the engine;a pre-chamber coupled to the cylinder;a fuel delivery valve coupled to the pre-chamber;a controller configured to: determine if the engine is operating in a steady state condition;determine if the engine is operating within a predetermined range of a set of calibration parameters for the engine;initiate a first detection mode, if the engine is operating in the steady state condition and the engine is operating within the predetermined range of the set of calibration parameters; wherein, when the controller is in the first detection mode, the controller is configured to calculate a standard deviation for a crank angle location in a chamber of the engine, and the controller is configured to determine if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle; andwherein, when the controller is in the first detection mode, the controller is configured to calculate a standard deviation of a peak pressure in a chamber of the engine, and determining if the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure;initiate a second detection mode of an engine cylinder cut out check, if the standard deviation for a crank angle location is greater than a threshold value for the standard deviation for a crank angle, or the standard deviation for the peak pressure is greater than a threshold value for the standard deviation of the peak pressure; andidentify one or more misfiring cylinders of the plurality of cylinders.