Advanced pedestrian sensing system for vehicles with active hood

What is claimed is: 1. A method for operating an automobile vehicle pedestrian sensing system, comprising: fixing at least two piezoelectric sensors to a vehicle bumper fascia; reading an electrical signal defining a voltage signal from each of the at least two piezoelectric sensors, the voltage signal from each of the at least two piezoelectric sensors generated in response to an impact of an object with the fascia; retrieving a predetermined threshold from a memory individually assigned to each of the piezoelectric sensors; generating a sub-signal indicative of an impact event if the voltage from any of the piezoelectric sensors is greater than the threshold value; determining a total response time (TRT) from a sensing time (ST) of the at least two piezoelectric sensors plus a deployment time (DP) for full extension of a vehicle hood using a hood deployment system, wherein the TRT is less than or equal to a Head Impact Time (HIT) defining a time between contact between a pedestrian with the fascia until a head of the pedestrian contacts the vehicle hood. 2. The method for operating an automobile vehicle pedestrian sensing system of claim 1 , further including forwarding the sub-signal from each of the piezoelectric sensors to at least two logic boxes or circuits. 3. The method for operating an automobile vehicle pedestrian sensing system of claim 2 , further including generating a hood deployment signal if any one of the logic circuits receives as inputs sub-signals indicative of the impact event from all of the piezoelectric sensors in communication with the any one of the logic circuits. 4. The method for operating an automobile vehicle pedestrian sensing system of claim 1 , further including returning to the reading step. 5. The method for operating an automobile vehicle pedestrian sensing system of claim 1 , further including reading a vehicle speed. 6. The method for operating an automobile vehicle pedestrian sensing system of claim 5 , further including calculating a weighting value for the vehicle speed. 7. The method for operating an automobile vehicle pedestrian sensing system of claim 6 , further including applying the weighting value to each threshold retrieved from the memory. 8. A method for operating an automobile vehicle pedestrian sensing system, comprising: fixing at least two piezoelectric sensors to a vehicle bumper fascia; reading an electrical signal defining a voltage signal from each of the at least two piezoelectric sensors, the voltage signal from each of the at least two piezoelectric sensors generated in response to an impact of an object with the fascia; retrieving a predetermined threshold from a memory individually assigned to each of the piezoelectric sensors; generating a sub-signal indicative of an impact event if the voltage from any of the piezoelectric sensors is greater than the threshold value; reading a vehicle speed; calculating a weighting value for the vehicle speed; applying the weighting value to each threshold retrieved from the memory; and increasing the weighting value for increasing vehicle speeds up to a maximum speed defining a predetermined speed above which no actuation of a hood deployment system is performed.