Valve control processes for an internal combustion engine

What is claimed is: 1. A method for controlling an internal combustion engine based on valve control times of a series-production internal combustion engine, the method comprising: measuring dynamic pressure oscillations in an inlet section or an outlet section of a reference internal combustion engine during reference valve control times to determine reference phase angles of selected signal frequencies of the pressure oscillation signal, in each case over a working cycle during the control time without a control time shift and during at least one further control time having a defined reference control time shift; determining at least one phase angle for the control time without a control time shift and at least one phase angle for the at least one further control time using a discrete Fourier transformation for the selected signal frequencies of the pressure oscillations; storing the reference phase angles and reference valve control times on an engine control unit of the series-production internal combustion engine; measuring dynamic pressure oscillations in an inlet section or an outlet section of the series-production internal combustion engine; determining a crankshaft-position feedback signal; determining the phase angles of selected signal frequencies of the measured pressure oscillations based at least in part on the measured pressure oscillations and the crankshaft position feedback signal using discrete Fourier transformation, wherein the selected signal frequencies correspond to an intake frequency of the internal combustion engine and at least one integer multiple of the intake frequency; determining the valve control times of the respective series-production internal combustion engine based at least in part on the determined phase angles, reference phase angles, and reference valve control times with the same signal frequencies of the pressure oscillations of the reference internal combustion engine or of a model function derived therefrom; comparing the determined valve control times with the reference valve control times; correcting the determined valve control times based on the reference valve control times; and adjusting valve control timing of the series-production internal combustion engine for operation based on the corrected valve control times. 2. The method as claimed in claim 1 , wherein a model function which models the relationship between the phase angles of the selected signal frequencies of the pressure oscillation signal and the valve control times is derived from the reference phase angles of the selected signal frequencies of the pressure oscillation signal and the assigned reference valve control times. 3. The method as claimed in claim 2 , further comprising: measuring the dynamic pressure oscillations in the inlet section or outlet section of the respective series-production internal combustion engine; determining phase angles using a discrete Fourier transformation for the selected signal frequencies of the pressure oscillations; and determining the valve control times according to the model function: StZ_SeMo_Act=StZ_RefMo_0+(StZ_RefMo_RefV−StZ_RefMo_0)*((PhW_SeMo_Act−PhW_RefMo_0)/(PhW_RefMo_RefV−PhW_RefMo_0)); wherein StZ_SeMo_Act represents an unknown inlet control time, StZ_RefMo_0 represents the dynamic pressure oscillations measured with known inlet control times without a control time shift, StZ_RefMo_RefV represents the dynamic pressure oscillations measured with valve control times adjusted by a known reference control time shift, PhW_RefMo_0 represents a phase angle for StZ_RefMo_0, PhW_SeMo_Act represents a phase angle of StZ_SeMo_Act, and PhW_RefMo_RefV represents a phase angle for StZ_RefMo_RefV. 4. The method as claimed in claim 1 , wherein the selected signal frequencies include the intake frequency and further multiples of the intake frequency. 5. The method as claimed in claim 1 , wherein the dynamic pressure oscillations are measured using a series production type pressure sensor in the intake manifold. 6. The method as claimed in claim 1 , wherein the crankshaft-position feedback signal is determined with a gearwheel and a Hall sensor. 7. The method as claimed in claim 1 , wherein further control variables or control routines are adapted to the determined valve control times in the engine controller.