Controlling an internal combustion engine operated on gaseous fuel

The invention claimed is: 1. A method for controlling an internal combustion engine operating on at least partly gaseous fuel, the method comprising: providing a desired burn rate profile corresponding to a desired operation of the internal combustion engine; selecting a set of operating parameters such that an operation of the internal combustion engine with a first gas composition produces a first burn rate profile that corresponds to the desired burn rate profile; operating the internal combustion engine with the set of operating parameters using a second gas composition; receiving pressure data corresponding to a cylinder pressure profile; deriving from the pressure data a 2nd burn rate profile; and deriving at least one of a relative burn rate profile and a cumulative burn rate profile for each combustion event, the cumulative burn rate profile being an accumulated relative burn rate profile over the duration of one combustion cycle determining the second burn rate profile differs from the desired burn rate profile thereby indicating that the second gas composition differs from the first gas composition; adjusting an ignition timing from among the set of operating parameters of the internal combustion engine to approach the desired burn rate profile. 2. A method for controlling an internal combustion engine operating on at least partly gaseous fuel, the method comprising: providing a desired burn rate profile corresponding to a desired operation of the internal combustion engine; selecting a set of operating parameters such that an operation of the internal combustion engine with a first gas composition produces a first burn rate profile that corresponds to the desired burn rate profile; operating the internal combustion engine with the set of operating parameters using a second gas composition; determining that the second burn rate profile differs from the desired burn rate profile thereby indicating that the second gas composition differs from the first gas composition; adjusting an operating parameter from among the set of operating parameters of the internal combustion engine to approach the desired burn rate profile; wherein adjusting the operating parameter comprises adjusting at least one of: a first operating parameter to shift a temporal position of the burn rate profile; and a second operating parameter to adjust a temporal spread of the burn rate profile, wherein each of the first operating parameter and the second operating parameter is one of ignition timing, air-to-fuel ratio, charge air pressure, gas admission duration, gas admission pressure, pre-combustion chamber gas supply pressure, pre-combustion chamber gas supply duration, ignition fuel injection pressure, and ignition fuel injection duration. 3. The method of claim 1 , wherein adjusting the first operating parameter comprises: deriving from cumulative burn rate profile an actual center of combustion; determining a difference between the actual center of combustion (COC 2 ) and a desired center of combustion (COC 1 ) of the desired cumulative burn rate profile; and adjusting the ignition timing such that the actual center of combustion (COC 2 ) approaches the desired center of combustion (COC 1 ). 4. The method of claim 3 , wherein deriving the center of combustion (COC 2 ) further comprises: determining a center point of the cumulative burn rate profile at a time corresponding to 50% of a maximum cumulative burn rate value; and associating the center point with the center of combustion (COC 2 ). 5. The method of claim 3 , wherein adjusting the ignition timing comprises: determining that the actual center of combustion (COC 2 ) corresponds to times after the desired center of combustion (COC 1 ); and advancing the ignition timing of a cylinder associated with the determination that the actual center of combustion (COC 2 ) corresponds to the times after the desired center of combustion (COC 1 ). 6. The method of claim 1 , wherein adjusting a second operating parameter comprises: deriving from the cumulative burn rate profile an actual combustion duration (DOC 2 ); determining a difference between the actual combustion duration (DOC 2 ) and a desired combustion duration (DOC 1 ) of the desired cumulative burn rate profile; and adjusting an air-to-fuel ratio such that the actual combustion duration (DOC 2 ) approaches the desired combustion duration (DOC 1 ). 7. The method of claim 6 , wherein deriving the actual combustion duration DOC 2 further comprises: determining a start of combustion (SOC 2 ) and an end of combustion (EOC 2 ) of the cumulative burn rate profile; and associating the time span between the start of combustion and the end of combustion (EOC 2 ) with the combustion duration (DOC 2 ), wherein the start of combustion (SOC 2 ) is at a time corresponding to the cumulative burn rate profile within a range from 0% to 25% of a maximum cumulative burn rate value, and the end of combustion (EOC 2 ) is at a time corresponding to the cumulative burn rate profile within a range from 75% to 100% of the maximum cumulative burn rate value. 8. The method of claim 6 , wherein adjusting the air-to-fuel ratio comprises: determining that the actual combustion duration (DOC 2 ) is longer than the desired combustion duration (DOC 1 ); and decreasing an air-to-fuel ratio of a cylinder associated with the determination that the actual combustion duration (DOC 2 ) is longer than the desired combustion duration (DOC 1 ). 9. The method of claim 1 , wherein the method is performed cylinder-specifically or for a plurality of cylinders, wherein at least one of appropriate values for adapting the operating parameter such as the ignition timing and the air-to-fuel ratio are provided based on predefined characteristic maps provided for individual cylinders or for a plurality of cylinders, predefined characteristic maps depend on additional operating parameters of the internal combustion engine, such as on a load, a speed or NOx emissions, and adjusting the operating parameter such as the ignition timing and the air-to-fuel ratio is performed stepwise over a plurality of adjustment steps. 10. The method of claim 1 , further comprising: determining an extent of the adjustment of the operating parameter based on an analysis of at least one of the following burn rate profile parameters: a maximum burn rate; a temporal position of the maximum burn rate; a maximum burn rate increase; a temporal position of the maximum burn rate increase; a start of combustion; a center of combustion; an end of combustion; and a combustion duration. 11. The method of claim 1 , wherein determining that the second burn rate profile differs from the desired burn rate profile comprises: determining a difference between the second burn rate profile and the desired burn rate profile; and determining that the difference is beyond a predefined threshold value. 12. The method according to claim 1 , further comprising: operating the internal combustion engine with the first operating parameters on the first gas composition; and monitoring a temporal development of a burn rate profile over a time period in which a variation in gas composition from the first gas composition to the second gas composition occurred such that the internal combustion engine is operated on the second gas composition while maintaining the first operating parameters. 13. An internal combustion engine during operation using at least partly gaseous fuel, the internal combustion engine comprising: an engine block; at least one cylinder disposed within the engine block and configur