Two dimensional pedestrian impact sensing

The invention claimed is: 1. A vehicle system comprising: a sensor configured to output an impact signal that at least partially represents resonance of a metal bumper following an impact; and a processing device programmed to calculate an acceleration envelope from the impact signal, determine a number of times resonance of the metal bumper causes the impact signal to cross a predetermined threshold, and determine whether the impact signal represents a pedestrian impact based at least in part on the acceleration envelope and the number of times the impact signal crosses the predetermined threshold. 2. The vehicle system of claim 1 , wherein the processing device is programmed to output a control signal to deploy a pedestrian protection countermeasure if the impact signal represents the pedestrian impact. 3. The vehicle system of claim 1 , wherein the sensor is configured to detect an impact of a host vehicle with an object. 4. The vehicle system of claim 1 , wherein the predetermined threshold is based at least in part on an impact profile of a pedestrian-related impact. 5. The vehicle system of claim 1 , wherein the predetermined threshold is based at least in part on an impact profile of a non-pedestrian related impact. 6. The vehicle system of claim 1 , wherein the predetermined threshold includes a zero-crossing counter to determine the number of times the impact signal crosses the predetermined threshold. 7. The vehicle system of claim 1 , wherein the sensor is mounted to the metal bumper of a host vehicle. 8. The vehicle system of claim 1 , the acceleration envelope and the number of zero crossings are each determined relative to a time duration. 9. The vehicle system of claim 8 , wherein the time duration for calculating the acceleration envelope is different from the time duration for determining the number of zero crossings. 10. The vehicle system of claim 1 , wherein the sensor is programmed to measure acceleration and wherein the impact signal represents the acceleration measured by the sensor. 11. A vehicle comprising: a metal bumper; a first sensor disposed on a surface of the metal bumper and configured to output a first impact signal; a second sensor disposed on the surface of the metal bumper and configured to output a second impact signal, wherein the first and second impact signals each at least partially represent resonance of the metal bumper following an impact; a pedestrian protection system; and a processing device configured to receive the first impact signal and the second impact signal, wherein the processing device is programmed to calculate an acceleration envelope from the impact signal, determine a number of times resonance of the metal bumper causes the impact signal to cross a predetermined threshold, and determine whether the impact signal represents a pedestrian impact based at least in part on the acceleration envelope and the number of times the impact signal crosses the predetermined threshold. 12. The vehicle system of claim 11 , wherein the processing device is programmed to output a control signal to deploy a pedestrian protection countermeasure if the impact signal represents the pedestrian impact. 13. The vehicle system of claim 11 , wherein the predetermined threshold includes a zero-crossing counter to determine the number of times the impact signal crosses the predetermined threshold. 14. The vehicle system of claim 11 , wherein the first sensor and second sensor are configured to detect an impact with an object and output the first impact signal and the second impact signal, respectively, in response to detecting the impact. 15. The vehicle system of claim 11 , wherein the metal bumper is formed from steel. 16. A method comprising: receiving, at a processing device, an impact signal at least partially representing resonance of a metal bumper following an impact of a host vehicle with an object; calculating an acceleration envelope from the impact signal; determining a number of times resonance of the metal bumper causes the impact signal to cross a predetermined threshold; and determining whether the impact signal represents a pedestrian impact based at least in part on the acceleration envelope and the number of times the impact signal crosses the predetermined threshold outputting a control signal to deploy a pedestrian protection countermeasure if the impact signal represents the pedestrian impact. 17. The method of claim 16 , further comprising: detecting the impact; generating an impact signal; and transmitting the impact signal to the processing device. 18. The method of claim 16 , wherein determining the number of times the impact signal crosses the predetermined threshold includes counting the number of times the impact signal crosses a zero threshold. 19. The method of claim 16 , further comprising: setting a zero crossing time window, wherein determining the number of times the impact signal crosses the predetermined threshold includes counting the number of times the impact signal crosses the predetermined threshold during the zero crossing time window.