Method for determining quantities of fuel during a direct injection of a motor vehicle

What is claimed is: 1. A method for determining a quantity of fuel during a direct injection of a motor vehicle, comprising: carrying out fuel test injections in two cylinders of an internal combustion engine of the motor vehicle during overrun phases within one work cycle; measuring speed oscillations of moved masses of the cylinders; and determining a relative difference in quantity of a quantity of fuel of the fuel test injections within one work cycle, the relative difference being determined based on the measured speed oscillations. 2. The method as recited in claim 1 , wherein the fuel test injections into the two cylinders are carried out using activation periods for which the same injection quantities are applied. 3. The method as recited in claim 2 , wherein two complex oscillation amplitudes are calculated from: (i) a total amplitude of the speed oscillations having two complex oscillation amplitudes, (ii) an absolute phase of a first one of the complex oscillation amplitudes, and (iii) a relative phase between the two complex oscillation amplitudes, wherein a ratio of the two complex oscillation amplitudes corresponds to a ratio of the injected quantities of fuel. 4. The method as recited in claim 1 , wherein a tentative diagnosis is provided within a predefined time span, the tentative diagnosis being checked for plausibility and quantified. 5. A method for determining a quantity of fuel during a direct injection of a motor vehicle, comprising: carrying out fuel test injections in two cylinders of an internal combustion engine of the motor vehicle during overrun phases within one work cycle; measuring speed oscillations of moved masses of the cylinders; and determining a relative difference in quantity of a quantity of fuel of the fuel test injections within one work cycle, the relative difference being determined based on the measured speed oscillations; wherein the fuel test injections into the two cylinders are carried out using activation periods for which the same injection quantities are applied; wherein two complex oscillation amplitudes are calculated from: (i) a total amplitude of the speed oscillations having two complex oscillation amplitudes, (ii) an absolute phase of the first complex oscillation amplitude, and (iii) a relative phase between the two complex oscillation amplitudes, wherein a ratio of the two complex oscillation amplitudes corresponds to a ratio of the injected quantities of fuel; wherein the internal combustion engine has more than two cylinders, and wherein multiple fuel test injections are carried out within one work cycle for multiple cylinder permutations of cylinder pairs. 6. The method as recited in claim 5 , wherein the cylinder permutations in the multiple fuel test injections within one work cycle are consistently selected in such a way that a phase difference of the complex oscillation amplitudes of the cylinders does not lie in the range from 170° to 190°. 7. The method as recited in claim 5 , wherein a parameter is determined from a ratio of the complex oscillation amplitudes of multiple cylinder permutations, and whether a relative quantity difference occurs is ascertained from the parameter. 8. A method for determining a quantity of fuel during a direct injection of a motor vehicle, comprising: carrying out fuel test injections in two cylinders of an internal combustion engine of the motor vehicle during overrun phases within one work cycle; measuring speed oscillations of moved masses of the cylinders; and determining a relative difference in quantity of a quantity of fuel of the fuel test injections within one work cycle, the relative difference being determined based on the measured speed oscillations; wherein two complex oscillation amplitudes for the fuel test injections into two cylinders are selected in such a way that a phase difference of the two complex oscillation amplitudes lies in a range from 170° to 190°, the two fuel test injections into the cylinders being carried out using two different activation periods. 9. The method as recited in claim 8 , wherein the two fuel test injections are repeated and the activation period which was shorter in a first method run is increased by double an amount of a difference between the two activation periods. 10. The method as recited in claim 9 , wherein a total amplitude of the complex oscillation amplitudes is measured in each of the two method runs to produce two total amplitudes, the two total amplitudes being compared with one another to produce a result and the difference in quantity is inferred from the result. 11. The method as recited in claim 10 , wherein the phase difference of the two total amplitudes is compared in the comparison. 12. A computer program for carrying out a method for determining a quantity of fuel during a direct injection of a motor vehicle, the computer program stored on a non-transitory computer-readable storage medium, the method comprising: carrying out fuel test injections in two cylinders of an internal combustion engine of the motor vehicle during overrun phases within one work cycle; measuring speed oscillations of moved masses of the cylinders; and determining a relative difference in quantity of a quantity of fuel of the fuel test injections within one work cycle, the relative difference being determined based on the measured speed oscillations. 13. A non-transitory electronic storage medium on which a computer program is stored, the computer program carrying out a method for determining a quantity of fuel during a direct injection of a motor vehicle, the method comprising: carrying out fuel test injections in two cylinders of an internal combustion engine of the motor vehicle during overrun phases within one work cycle; measuring speed oscillations of moved masses of the cylinders; and determining a relative difference in quantity of a quantity of fuel of the fuel test injections within one work cycle, the relative difference being determined based on the measured speed oscillations. 14. The non-transitory electronic storage medium as recited in claim 13 , wherein: the fuel test injections into the two cylinders are carried out using activation periods for which the same injection quantities are expected; two complex oscillation amplitudes are calculated from: (i) a total amplitude of the speed oscillations having two complex oscillation amplitudes, (ii) an absolute phase of the first complex oscillation amplitude, and (iii) a relative phase between the two complex oscillation amplitudes, wherein a ratio of the two complex oscillation amplitudes corresponds to a ratio of the injected quantities of fuel; and wherein the internal combustion engine has more than two cylinders, and wherein multiple fuel test injections are carried out within one work cycle for multiple cylinder permutations of cylinder pairs. 15. The non-transitory computer readable storage medium as recited in claim 13 , wherein two complex oscillation amplitudes for the fuel test injections into two cylinders are selected in such a way that a phase difference of the two complex oscillation amplitudes lies in a range from 170° to 190°, the two fuel test injections into the cylinders being carried out using two different activation periods. 16. An electronic control unit, comprising: a non-transitory electronic storage medium on which a computer program is stored, the computer program carrying out a method for determining a quantity of fuel during a direct injection of a motor vehicle, the method comprising: carrying out fuel test injections in two cylinders of an internal c