Method and system for diagnosing a cable by distributed reflectometry with self-selective average

The invention claimed is: 1. A method for testing a cable by distributed reflectometry, comprising: producing a first periodic signal and a second periodic signal having the same number N of periods and the same number M of samples per period, injecting into the cable, at a first injection point, the first periodic signal, and, at a second injection point, the second periodic signal, acquiring, at one or more cable observation points, a measurement of the reflection, from impedance discontinuities of the cable, of each of said first and second signals, said acquisition being synchronized with the injection of a signal from among said first and second signals, taking the average of said measurements of the reflection of at least one of said first or second signals over all of its periods to produce at least one reflectogram, and determining the positions of faults in the cable on the basis of at least said reflectogram, and wherein each period of said second signal is injected into the cable with a delay or an advance having a constant predetermined absolute value. 2. The method of claim 1 , wherein a period of the first periodic signal is identical to a period of the second periodic signal. 3. The method of claim 1 , further comprising: injecting into the cable, at a third injection point, a third periodic signal having the same number N of periods and the same number M of samples per period as said first signal, if the periods of the second signal are injected into the cable with a delay, injecting each period of said third signal with an advance, and if the periods of the second signal are injected into the cable with an advance, injecting each period of said third signal with a delay, and the absolute value of the advance or delay at the injection of a period of the third signal being set equal to the absolute value of the delay or the advance at the injection of a period of the second signal. 4. The method of claim 3 , wherein a period of the third periodic signal is identical to a period of the first periodic signal or of the second periodic signal. 5. The method of claim 1 , wherein the absolute value of the delay or the advance is zero for the first period and is equal to a time difference equivalent to a number K of signal samples for each successive period. 6. The method of claim 1 , wherein each period is increased or decreased by a number K of samples in order to obtain the delay or advance. 7. The method of claim 5 , wherein the number of samples M of a period is equal to K times the number N of periods over which the average is taken. 8. The method of claim 1 , wherein said periodic signals are selected from among the following signals: a temporal pulse, a time slot, a triangular signal, and a zero-average signal. 9. A distributed reflectometry system comprising at least a first and a second reflectometry test device positioned at two or more separate points of the same cable to be tested, wherein each device comprises means, including a processor, configured for: producing a first periodic signal and a second periodic signal having the same number N of periods and the same number M of samples per period, injecting into the cable, at a first injection point, the first periodic signal, and, at a second injection point, the second periodic signal, acquiring, at one or more cable observation points, a measurement of the reflection, from impedance discontinuities of the cable, of each of said first and second signals, said acquisition being synchronized with the injection of a signal from among said first and second signals, taking the average of said measurements of the reflection of at least one of said first or second signals over all of its periods to produce at least one reflectogram, and determining the positions of faults in the cable on the basis of at least said reflectogram, wherein each period of said second signal is injected into the cable with a delay or an advance having a constant predetermined absolute value.