Method and control unit for controlling an internal combustion engine

The invention claimed is: 1. A method for controlling a single-cylinder or multi-cylinder internal combustion engine having at least one fuel injector per cylinder for injecting fuel, at least one camshaft for actuating at least one inlet valve and/or at least one outlet valve, wherein a valve drive adjustment device is provided for controllable switching between at least two different actuation characteristics of at least one valve that is actuated by means of the camshaft, and a crankshaft sensor which outputs a crankshaft signal which represents a crankshaft angle, the method comprising: a control unit receiving at least one cylinder pressure signal from a cylinder pressure sensor for measuring a pressure in an associated cylinder, the control unit evaluating the at least one cylinder pressure signal for interference signals caused by interference noises propagating through an engine block of the engine, the control unit determining a switching state of the valve drive adjustment device based at least on the evaluation of the at least one cylinder pressure signal and the interference signals caused by the interference noises propagating through the engine block of the engine, the control unit determining predefined amounts of fuel and predefined injection times based at least on the determined switching state of the valve drive adjustment device, and the control unit controlling the at least one fuel injector such that the predefined amounts of fuel are injected by said at least one fuel injector at the predefined injection times. 2. The method of claim 1 , wherein the actuation characteristics differ from one another with regard to a maximum valve stroke. 3. The method of claim 1 , wherein the actuation characteristics differ from one another with regard to a camshaft phase. 4. The method of claim 1 , wherein the evaluation of the cylinder pressure signal depends on a camshaft signal output by a camshaft sensor as a function of a camshaft angle. 5. The method of claim 1 , wherein the internal combustion engine has a plurality of cylinders and cylinder pressure signals and interference signals of cylinder pressure sensors respectively assigned to all of the cylinders are taken into consideration. 6. The method of claim 4 , wherein an evaluation result is further used for checking a plausibility of at least one of the crankshaft signal output by the crankshaft sensor and the camshaft signal output by the camshaft sensor. 7. A control unit for a single-cylinder or multi-cylinder internal combustion engine having at least one fuel injector per cylinder for injecting fuel, at least one camshaft for actuating at least one inlet valve and/or at least one outlet valve, wherein a valve drive adjustment device is provided for controllable switching between at least two different actuation characteristics of at least one valve that is actuated by means of the camshaft, and a crankshaft sensor which outputs a crankshaft signal which represents a crankshaft angle, wherein the control unit is configured to: receive at least one cylinder pressure signal from a cylinder pressure sensor for measuring a pressure in an associated cylinder, evaluate the at least one cylinder pressure signal for interference signals caused by interference noises propagating through an engine block of the engine, determine a switching state of the valve drive adjustment device based at least on the evaluation of the at least one cylinder pressure signal and the interference signals caused by interference noises propagating through an engine block of the engine, determine predefined amounts of fuel and predefined injection times based at least on the determined switching state of the valve drive adjustment device, and control the at least one fuel injector such that the predefined amounts of fuel are injected by said at least one fuel injector at the predefined injection times. 8. The control unit of claim 7 , wherein the actuation characteristics differ from one another with regard to a maximum valve stroke. 9. The control unit of claim 7 , wherein the actuation characteristics differ from one another with regard to a camshaft phase. 10. The control unit of claim 7 , wherein the evaluation of the cylinder pressure signal depends on a camshaft signal output by a camshaft sensor as a function of a camshaft angle. 11. The control unit of claim 10 , wherein an evaluation result is further used for checking a plausibility of at least one of the crankshaft signal output by the crankshaft sensor and the camshaft signal output by the camshaft sensor. 12. The control unit of claim 7 , wherein the internal combustion engine has a plurality of cylinders and cylinder pressure signals and interference signals of cylinder pressure sensors respectively assigned to all of the cylinders are taken into consideration. 13. An internal combustion engine, comprising: at least one fuel injector per cylinder for injecting fuel, at least one camshaft for actuating at least one inlet valve and/or at least one outlet valve, a valve drive adjustment device for controllable switching between at least two different actuation characteristics of at least one valve actuated by the camshaft, a crankshaft sensor which outputs a crankshaft signal which represents a crankshaft angle, and a control unit configured to: receive at least one cylinder pressure signal from a cylinder pressure sensor for measuring a pressure in an associated cylinder, evaluate the at least one cylinder pressure signal for interference signals caused by interference noises propagating through an engine block of the engine, determine a switching state of the valve drive adjustment device based at least on the evaluation of the at least one cylinder pressure signal and the interference signals caused by interference noises propagating through the engine block of the engine, determine predefined amounts of fuel and predefined injection times based at least on the determined switching state of the valve drive adjustment device, and control the at least one fuel injector such that the predefined amounts of fuel are injected by said at least one fuel injector at the predefined injection times. 14. The internal combustion engine of claim 13 , wherein the actuation characteristics differ from one another with regard to a maximum valve stroke. 15. The internal combustion engine of claim 13 , wherein the actuation characteristics differ from one another with regard to a camshaft phase. 16. The internal combustion engine of claim 13 , wherein the evaluation of the cylinder pressure signal depends on a camshaft signal output by a camshaft sensor as a function of a camshaft angle. 17. The internal combustion engine of claim 16 , wherein an evaluation result is further used for checking a plausibility of at least one of the crankshaft signal output by the crankshaft sensor and the camshaft signal output by the camshaft sensor. 18. The internal combustion engine of claim 13 , comprising a plurality of cylinders and wherein cylinder pressure signals and interference signals of cylinder pressure sensors respectively assigned to all of the cylinders are taken into consideration.