Method of detecting a clogging of a fuel injector in an internal combustion engine

What is claimed is: 1. A method of detecting a clogging of a fuel injector of an internal combustion engine equipped with a plurality of fuel injectors, the method comprising: testing each fuel injector of the plurality of fuel injectors, wherein the testing includes: switching off a test injector; adjusting a requested value of a fuel quantity to be injected by the plurality of fuel injectors excluding the test injector to operate the internal combustion engine in an idle mode; measuring a value of an oxygen concentration in an exhaust gas; and estimating a value of a fuel quantity that has been injected as a function of the measured value of the oxygen concentration; calculating a fuel quantity drift of each test injector as a function of the requested values and the estimated values of the fuel quantity provided by all injector tests; and using each fuel quantity drift to identify when the test injector is clogged. 2. The method of claim 1 , wherein each testing further comprises calculating a difference between the product of the requested value of the fuel quantity by a correction factor and the estimated value of the fuel quantity, wherein the fuel quantity drift for each test injector is calculated as a function of the calculated differences provided by all injector tests. 3. The method of claim 2 , further comprising calculating the correction factor as the ratio between the number of the plurality of fuel injectors excluding the test injector and the number of the plurality of fuel injectors. 4. The method of claim 1 , further comprising: calculating a drift index on the basis of the corresponding fuel quantity drift for each test injector; and identifying a clogged injector when a corresponding drift index for the test injector is greater than or equal to a predetermined threshold value. 5. The method of claim 4 , wherein each drift index is calculated as the ratio between the corresponding fuel quantity drift and a reference value of the fuel quantity to be injected by the plurality of fuel injectors to operate the internal combustion engine in idle mode. 6. The method of claim 1 , further comprising the steps of: operating the plurality of fuel injectors using a reference value of the fuel quantity to be injected thereby to operate the internal combustion engine in the idle mode; measuring a value of an oxygen concentration in an exhaust gas; estimating a value of a fuel quantity that has been injected by the plurality of fuel injectors as a function of the measured value of the oxygen concentration; and calculating an overall drift of the fuel quantity injected by the plurality of fuel injectors as the difference between the reference value and the estimated value of fuel quantity due to the operation of the plurality of fuel injectors. 7. The method of claim 6 , further comprising the steps of: calculating a sum of each fuel quantity drift; calculating a difference between the calculated sum and the calculated overall drift; and identifying the injector tests as coherent when the calculated difference is less than or equal to a predetermined threshold value thereof. 8. An internal combustion engine comprising a plurality of fuel injectors and an electronic control unit configured to carry out the method according to claim 1 . 9. A non-transitory computer readable medium comprising a program code, which when executed on a computer, is configured to test each fuel injector of a plurality of fuel injectors for detecting a clogged injector of an internal combustion engine, a program code, wherein the testing includes: testing each fuel injector of the plurality of fuel injectors, wherein the testing includes: switching off a test injector; adjusting a requested value of a fuel quantity to be injected by the plurality of fuel injectors excluding the test injector to operate the internal combustion engine in an idle mode; measuring a value of an oxygen concentration in an exhaust gas; and estimating a value of a fuel quantity that has been injected as a function of the measured value of the oxygen concentration; calculating a fuel quantity drift of each test injector as a function of the requested values and the estimated values of the fuel quantity provided by all injector tests; and using each fuel quantity drift to identify when the test injector is clogged. 10. A scan tool for detecting a clogged injector of an internal combustion engine, comprising a processor and a non-transitory storage medium having a program code, which when executed on the processor, is configured to test each fuel injector of the plurality of fuel injectors, wherein the testing includes: switching off a test injector; adjusting a requested value of a fuel quantity to be injected by the plurality of fuel injectors excluding the test injector to operate the internal combustion engine in an idle mode; measuring a value of an oxygen concentration in an exhaust gas; and estimating a value of a fuel quantity that has been injected as a function of the measured value of the oxygen concentration; wherein a fuel quantity drift of each test injector is calculate as a function of the requested values and the estimated values of the fuel quantity provided by all injector tests, and each fuel quantity drift is used to identify when the test injector is clogged.