Radar wear sensing for tire applications

What is claimed is: 1. A radar-based-sensing system for a tire comprising: a plurality of sensors disposed circumferentially around a tire annulus, wherein each sensor in the plurality of sensors is permanently disposed within the tire annulus, each sensor in the plurality of sensors is further disposed radially above any metal structures within the tire annulus, and each sensor in the plurality of sensors emits waves and senses reflected waves when rotating. 2. The radar-based-sensing system of claim 1 , wherein the sensors are disposed substantially equidistantly around the tire annulus. 3. The radar-based-sensing system of claim 1 , wherein at least two of the plurality of sensors are disposed along a common axial edge of the tire annulus. 4. The radar-based-sensing system of claim 1 , wherein the plurality of sensors sends data to a predictive maintenance database. 5. The radar-based-sensing system of claim 1 , wherein the plurality of sensors sends data to a wear-sensing system configured to generate an uneven-wear alert. 6. The radar-based-sensing system of claim 1 , wherein the plurality of sensors senses rigid particulates within a tire tread. 7. The radar-based-sensing system of claim 1 , wherein the system is incorporated into a heavy-duty tire. 8. A radar-based-sensing system for a tire comprising: a radar device embedded in a tire, between a circumferential belt and voids in a circumferential tread, wherein the radar device emits and receives radar waves having a frequency between 90 and 100 GHz; and an interrogator configured to power and receive data from the radar device, wherein the interrogator is not disposed on the tire. 9. The radar-based-sensing system of claim 8 , wherein the tire is a passenger tire. 10. The radar-based-sensing system of claim 8 , wherein the interrogator is disposed on a vehicle location selected from the group consisting of an axle, a wheel, and a wheel well. 11. The radar-based-sensing system of claim 8 , wherein the interrogator is disposed on a vehicle path. 12. The radar-based-sensing system of claim 8 , wherein data from the system is sent to original equipment manufacturers. 13. The radar-based-sensing system of claim 8 , wherein the radar device emits radar waves having a frequency between 92 and 95 GHz. 14. A radar-based-sensing system for a tire comprising: an electronic device disposed radially between a circumferential belt and a bottom tread surface of a tire, wherein the electronic device includes: an emitter configured to emit pulsed electromagnetic waves having a frequency between 30 and 300 GHz and a bandwidth between 15 and 35 ps; a receptor configured to receive reflected electromagnetic waves; a processor that compares at least one property difference between an emitted and reflected wave; and a transmitter configured to transmit data to an interrogator, wherein the electronic device observes wear over the life of the tire, at sub-millimeter resolution. 15. The radar-based-sensing system of claim 14 , wherein the emitter is embedded within a circumferential undertread of the tire. 16. The radar-based-sensing system of claim 14 , wherein the emitter is disposed on a radially outer surface of a circumferential undertread of the tire. 17. The radar-based-sensing system of claim 14 , wherein the emitter is resettable. 18. The radar-based-sensing system of claim 14 , wherein real time data from the emitter is sent to a vehicle for recordation or display. 19. The radar-based-sensing system of claim 14 , wherein the emitter is disposed within a circumferential tread, the circumferential tread being disposed radially above a circumferential undertread. 20. The radar-based-sensing system of claim 14 , further comprising a second emitter disposed radially above the circumferential belt.