System and method for predicting wear progression for vehicle tires

What is claimed is: 1. A method for estimating progression in vehicle tire wear, the method comprising: developing over time, and storing in data storage, correlations based on historical measurements of changes in tire tread and shifts between corresponding modal frequencies associated with a given type of tire; storing a tread depth at a first stage for a tire of the given type and associated with a vehicle; responsive to a first modal analysis for the tire, sensing and storing a first set of one or more modal frequencies for the tire at the first stage; responsive to a second modal analysis for the tire, at a subsequent second stage, sensing a second set of a corresponding one or more modal frequencies for the tire; and estimating a tire wear status of the tire at the second stage based on a calculated frequency shift between at least one corresponding modal frequency from each of the first and second sets, wherein an estimated loss in tire tread is determined via a retrievable correlation between the calculated frequency shift and a change in tire tread for a given tire; predicting one or more tire performance characteristics, based at least in part on the estimated tire wear status; and selectively providing real-time feedback based on the predicted one or more tire performance characteristics and/or estimated tire wear status. 2. The method of claim 1 , wherein the first and second sets of corresponding modal frequencies are sensed via one or more accelerometers, responsive to excitation of structural modes for the tire. 3. The method of claim 2 , wherein the tire structural modes are randomly excited during operation of the tire and associated output signals generated by the one or more accelerometers are captured. 4. The method of claim 2 , wherein the tire structural modes are excited by controlled impacting of the tire with an external object. 5. The method of claim 2 , wherein the tire structural modes are excited by directing movement of the vehicle with respect to one or more predetermined obstacles. 6. A system for estimating progression in vehicle tire wear, the system comprising: a computing device or network functionally linked to a data storage network; one or more sensors mounted on a tire associated with a vehicle and/or the vehicle and configured to generate output signals corresponding to tire structural modes; wherein the computing device or network is configured to develop over time, and store in the data storage, correlations based on historical measurements of changes in tire tread and shifts between corresponding modal frequencies associated with a type of tire corresponding to a type of the tire associated with the vehicle, store a tread depth at a first stage for the tire associated with a vehicle; collect the output signals from the one or more sensors responsive to an excitation of the tire structural modes at each of a first stage and a subsequent second stage, responsive to the excitation of the tire structural modes at the first stage, determine a first set of one or more modal frequencies for the tire, responsive to the excitation of the tire structural modes at the subsequent second stage, determine a second set of a corresponding one or more modal frequencies for the tire, and estimate a tire wear status of the tire based on a calculated frequency shift between at least one corresponding modal frequency from each of the first and second sets, wherein an estimated loss in tire tread is determined via a retrievable correlation between the calculated frequency shift and a change in tire tread for a given tire, predict one or more tire performance characteristics, based at least in part on the estimated tire wear status, and selectively provide real-time feedback based on the predicted one or more tire performance characteristics and/or estimated tire wear status. 7. The system of claim 6 , wherein the one or more sensors comprise one or more accelerometers attached to the tire, and the tire structural modes are randomly excited during operation of the tire and the computing device or network is configured to process associated output signals generated by the one or more sensors. 8. The system of claim 6 , wherein the one or more sensors comprise one or more accelerometers attached to the tire, and the tire structural modes are excited by a controlled impacting of the tire with an external object. 9. The system of claim 6 , wherein the one or more sensors comprise one or more accelerometers attached to the tire, and the tire structural modes are excited by directing movement of the vehicle with respect to one or more predetermined obstacles. 10. A system for estimating progression in vehicle tire wear, the system comprising: means for determining a shift between corresponding modal frequencies for a tire at a first stage and a second stage; and means for determining a change in tread depth for the tire based on the determined shift between the corresponding modal frequencies.