Management of the differential pressure thresholds of a vacuum pump connected to the braking system of a motor vehicle

The invention claimed is: 1. A method for managing a vacuum pump connected to a braking system of a motor vehicle and comprising: using an electronic control unit linked to the vacuum pump, the vacuum pump being an electric vacuum pump; determining at least one differential pressure threshold associated with the vacuum pump and selected from a first differential pressure threshold commanding stoppage of operation of the vacuum pump, a second differential threshold commanding starting of the vacuum pump, and a third differential pressure threshold lower than the second threshold and signaling alerts representative of operating defects, while taking into account at least one of a first data set representative of detection or non-detection of a repetitive braking situation, and a second data set representative of altitude of the vehicle; and modifying at least one of the first differential pressure threshold, the second differential threshold, and the third differential pressure threshold when the repetitive braking situation is detected such that the vacuum pump is controlled according to the first differential pressure threshold, the second differential threshold, and the third differential pressure threshold. 2. The management method as claimed in claim 1 , further comprising modifying at least the first and second differential pressure thresholds such that at a given altitude, at least the first and second differential pressure thresholds develop by incremental stages when the vehicle's travel speed increases, a transition between two successive stages occurring at predefined speed thresholds stored in an electronic control unit. 3. The management method as claimed in claim 2 , wherein the modifying is inhibited when the first data set is representative of detection of presence of a repetitive braking situation, such that at least the first and second differential pressure thresholds are held constant by the electronic control unit irrespective of the vehicle's travel speed. 4. The management method as claimed in claim 2 , wherein the modifying is modulated as a function of the second data. 5. The management method as claimed in claim 2 , wherein the modifying includes modifying the third differential pressure threshold such that at the given altitude the third differential pressure threshold also develops by incremental stages when the vehicle's travel speed increases, a transition between two successive stages occurring at predefined speed thresholds stored in an electronic control unit. 6. The management method as claimed in claim 5 , wherein the modifying is inhibited when the first data set is representative of detection of presence of a repetitive braking situation, such that the first, second, and third differential pressure thresholds are held constant by the electronic control unit irrespective of the vehicle's travel speed. 7. The management method as claimed in claim 1 , wherein at a given travel speed of the vehicle, at least the first and second differential pressure thresholds develop incrementally as a function of the altitude of the vehicle. 8. The management method as claimed in claim 7 , wherein at the given travel speed of the vehicle the third differential pressure threshold also develops incrementally as a function of the altitude of the vehicle. 9. The management method as claimed in claim 1 , wherein at a given travel speed of the vehicle, at least the first and second differential pressure thresholds develop by incremental stages as the vehicle's altitude increases, the transition between two successive stages occurring at predefined altitude thresholds stored in the electronic control unit. 10. The management method as claimed in claim 9 , wherein at the given travel speed of the vehicle the third differential pressure threshold also develops by incremental stages as the vehicle's altitude increases, the transition between two successive stages occurring at predefined altitude thresholds stored in the electronic control unit. 11. The management method as claimed in claim 9 , wherein at each altitude threshold, a hysteresis is implemented such that: a transition from one stage to an immediately lower stage as the altitude decreases is applied at a moment when the vehicle's altitude is lower than the altitude threshold and when the difference between the altitude threshold and the vehicle's altitude becomes greater than a first predefined value; a transition from one stage to an immediately higher stage as the altitude increases is applied at a moment when the vehicle's altitude is higher than the altitude threshold and when the difference between the vehicle's altitude and the altitude threshold becomes greater than a second predefined value, which may be equal to the first predefined value. 12. A system for managing a vacuum pump connected to a braking system of a vehicle, comprising an electronic control unit including hardware and/or software elements implementing the management method as claimed in claim 1 . 13. The system as claimed in claim 12 , comprising an element for detecting presence or absence of a repetitive braking situation and supplying the electronic control unit with the first data set, and/or an element for assessing the altitude of the vehicle and supplying the electronic control unit with the second data set. 14. A motor vehicle comprising: a system as claimed in claim 13 ; a vacuum pump associated with a vacuum reserve and managed by the system; the electronic control unit being linked to the vacuum pump to start an operation of the vacuum pump when the difference between ambient pressure of the vehicle and pressure of the vacuum reserve is less than or equal to the second differential pressure threshold determined by the electronic control unit, and to stop the operation of the vacuum pump when the difference between the ambient pressure of the vehicle and the pressure of the vacuum reserve is greater than or equal to the first differential pressure threshold determined by the electronic control unit. 15. A method for managing a vacuum pump connected to a braking system of a motor vehicle and comprising: using an electronic control unit linked to the vacuum pump, the vacuum pump being an electric vacuum pump; determining at least one differential pressure threshold associated with the vacuum pump and selected from a first differential pressure threshold commanding stoppage of operation of the vacuum pump, a second differential threshold commanding starting of the vacuum pump, and a third differential pressure threshold lower than the second threshold and signaling alerts representative of operating defects, while taking into account at least one of a first data set representative of detection or non-detection of a repetitive braking situation, and a second data set representative of altitude of the vehicle; modifying at least the first and second differential pressure thresholds, and possibly also the third differential pressure threshold, such that at a given altitude, at least the first and second differential pressure thresholds and possibly also the third differential pressure threshold develop by incremental stages when the vehicle's travel speed increases, a transition between two successive stages occurring at predefined speed thresholds stored in an electronic control unit, wherein the modifying is inhibited when the first data set is representative of detection of presence of a repetitive braking situation, such that at least the first and second differential pressure thresholds, and possibly also the third differential pressure threshold, are held constant by the