Hybrid method and apparatus for detecting a vehicle/pedestrian impact

Having described the invention, the following is claimed: 1. An apparatus for detecting a vehicle/pedestrian impact comprising: a least one acceleration sensor mounted near a forward location of a vehicle for providing an associated acceleration signal indicative of an impact event; at least one pressure sensor mounted near the forward location of the vehicle for providing an associated pressure signal indicative of an impact event; and a controller for determining if a vehicle/pedestrian impact event has occurred in response to the acceleration signal and the pressure signal and for providing an actuation control signal in response thereto, the controller determining if a vehicle/pedestrian impact event has occurred by determining an impact energy value from the acceleration signal and comparing a determined moving average value of the pressure signal as a function of the impact energy value against an associated threshold value; wherein the at least one acceleration sensor comprises a plurality of acceleration sensors each mounted near a forward location of a vehicle for providing associated acceleration signals indicative of a vehicle/pedestrian impact event; and wherein said at least one pressure sensor is a multi channel pressure sensor having a plurality of pressure hoses connected thereto, said plurality of pressure hoses being mounted near the forward location of the vehicle for providing an associated pressure signal indicative of an impact event. 2. The apparatus of claim 1 further including an actuatable vehicle/pedestrian impact mitigation device attached to the vehicle and being responsive to said actuation control signal. 3. The apparatus of claim 1 wherein said controller includes a metric determining device for determining vehicle/pedestrian impact metric values from said acceleration signal and the pressure signal, said controller providing said actuation control signal in response to the determined vehicle/pedestrian impact metric values. 4. The apparatus of claim 3 wherein the determined vehicle/pedestrian impact metric values includes the impact energy value determined from the acceleration signal. 5. The apparatus of claim 4 wherein the impact energy value is determined from frequency components of the acceleration signal over a predetermined frequency range. 6. The apparatus of claim 3 wherein the determined vehicle/pedestrian impact metric values includes the moving average value of the pressure signal. 7. The apparatus of claim 3 wherein the determined vehicle/pedestrian impact metric values includes a displacement value determined from the acceleration signal. 8. The apparatus of claim 7 wherein the displacement value is determined over a predetermined time window. 9. The apparatus of claim 3 wherein the determined vehicle/pedestrian impact metric values are compared against selectable thresholds for determining the occurrence of the vehicle/pedestrian impact event. 10. The apparatus of claim 9 wherein the thresholds are selected in response to a monitored vehicle speed. 11. The apparatus of claim 1 wherein said at least one acceleration sensor includes two spaced apart sensors mounted to a forward structure of the vehicle. 12. The apparatus of claim 1 wherein said at least one acceleration sensor includes three spaced apart sensors mounted to a forward structure of the vehicle. 13. An apparatus for detecting a vehicle/pedestrian impact comprising: a least one acceleration sensor mounted near a forward location of a vehicle for providing an associated acceleration signal indicative of an impact event; at least one pressure sensor mounted near the forward location of the vehicle for providing an associated pressure signal indicative of an impact event, wherein said at least one pressure sensor includes a dual channel pressure sensor and two pressure tubes connected to the dual channel pressure sensor, both pressure tubes having a closed distal end and mounted to a forward structure of the vehicle so that one pressure tube is mounted on a left portion of the forward structure of the vehicle and the other pressure tube is mounted on a right portion of the forward structure of the vehicle; and a controller for determining if a vehicle/pedestrian impact event has occurred in response to the acceleration signal and the pressure signal and for providing an actuation control signal in response thereto. 14. An apparatus for detecting a vehicle/pedestrian impact comprising: a least one acceleration sensor mounted near a forward location of a vehicle for providing an associated acceleration signal indicative of an impact event; at least one pressure sensor mounted near the forward location of the vehicle for providing an associated pressure signal indicative of an impact event, wherein said at least one pressure sensor includes a multi channel pressure sensor and more than two pressure tubes each connected to an associated channel of the multi channel pressure sensor, each of the pressure tubes having a closed distal end and each mounted to an associated portion of the forward structure of the vehicle; and a controller for determining if a vehicle/pedestrian impact event has occurred in response to the acceleration signal and the pressure signal and for providing an actuation control signal in response thereto. 15. The apparatus of claim 1 wherein said controller determines a displacement value from the acceleration signal and determines if the vehicle/pedestrian impact event has occurred by comparing the determined displacement value as a function of the determined impact energy value against an associated threshold value. 16. The apparatus of claim 15 where said associated threshold value for comparison of the determined displacement value as a function of the determined impact energy value is selected in response to monitored vehicle speed. 17. An apparatus for detecting a vehicle/pedestrian impact comprising: at least one acceleration sensor mounted near a forward location of a vehicle for providing an associated acceleration signal indicative of an impact event; at least one multi-channel pressure sensor having a plurality of pressure hoses connected thereto, the plurality of pressure hoses being mounted at associated different locations along a forward structure of the vehicle, each pressure hose providing an associated pressure indication to the multi-channel pressure sensor of an impact event, the multi-channel pressure sensor providing an associated electrical signal indicative of an impact event encountered by any of the pressure hoses; and a controller for determining if a vehicle/pedestrian impact event has occurred in response to the acceleration signal and the associated electrical signal from the multi-channel pressure sensor and for providing an actuation control signal in response thereto. 18. The apparatus of claim 17 further including an actuatable vehicle/pedestrian impact mitigation device attached to the vehicle and being responsive to said actuation control signal. 19. The apparatus of claim 1 wherein said plurality of acceleration sensors included three acceleration sensors, one of the plurality of acceleration sensors being mounted at a center forward location of the vehicle, one of the plurality of acceleration sensors being mounted at a leftward forward location of the vehicle, and one of the plurality of acceleration sensors being mounted at a rightward forward location of the vehicle.