Indirect tire wear state estimation system

What is claimed is: 1. A tire wear state estimation system comprising: a tire supported by a wheel and supporting a vehicle; a vehicle-based sensor for measuring a wheel speed of the wheel supporting the tire and generating a wheel speed signal; a feature-extracting processor for extracting from the wheel speed signal a median slip-ratio of the tire, wherein the median slip-ratio of the tire is operably determined by a statistical analysis of the wheel speed signal; a feature-extracting processor for extracting from the wheel speed signal a slip-ratio rate of the tire, wherein the slip-ratio rate of the tire is operably determined by a statistical analysis of the wheel speed signal; a data classifier receiving as data inputs median slip-ratio data and slip-ratio rate data; the data classifier operable to conduct a classification of the median slip-ratio data relative to the slip-ratio rate data to estimate a wear state for the tire. 2. The tire wear state estimation system of claim 1 , further comprising: a tire-mounted temperature sensor for measuring a temperature of the tire; a tire-mounted pressure sensor for measuring an air pressure within the tire; a tire identification module mounted to the tire for identifying the tire; an accessible tire construction database operable to identify tire construction characteristics based upon tire identification by the tire identification module; and wherein the data classifier is operable to adaptively modify the classification of the median slip-ratio data relative to the slip-ratio rate data based upon the measured temperature of the tire, the measured air pressure within the tire and the identified tire construction characteristics. 3. The tire wear state estimation system of claim 1 , wherein the estimation of the wear state of the tire is operably determined from a support vector data classification algorithm using as inputs the median slip-ratio data of the tire and the slip-ratio data of the tire. 4. The tire wear state estimation system of claim 3 , further comprising: a tire-mounted temperature sensor for measuring a temperature of the tire; a tire-mounted pressure sensor for measuring an air pressure within the tire; a tire identification module mounted to the tire for identifying the tire; an accessible tire construction database operable to identify tire construction characteristics based upon tire identification by the tire identification module; and wherein the data classifier is operable to adaptively modify the classification of the median slip-ratio relative to the slip-ratio rate based upon the measured temperature of the tire, the measured air pressure within the tire, and the identified tire construction characteristics. 5. A tire wear state estimation system comprising: a tire supported by a wheel and supporting a vehicle; a vehicle-based sensor for measuring a wheel speed of the wheel supporting the tire and generating a wheel speed signal; a feature-extracting processor for extracting from the wheel speed signal a median slip-ratio of the tire, the median slip-ratio of the tire quantitatively changing responsive to a wear level change of the tire, and wherein the median slip-ratio of the tire is operably determined by a statistical analysis of the wheel speed signal; a feature-extracting processor for extracting from the wheel speed signal a slip-ratio rate of the tire, the slip-ratio rate of the tire quantitatively changing responsive to a wear level change of the tire, and wherein the slip-ratio rate of the tire is operably determined by a statistical analysis of the wheel speed signal; a data classifier receiving as inputs median slip-ratio data and slip-ratio rate data; the data classifier operable to conduct a classification of the median slip-ratio data relative to the slip-ratio rate data; a wear state estimator operable to estimate a wear state for the tire based upon the classification of the median slip-ratio data relative to the slip-ratio rate data. 6. The tire wear state estimation system of claim 5 , wherein the estimation of the wear state of the tire is operably determined from a support vector data classification algorithm using as inputs the median slip-ratio data of the tire and the slip-ratio data of the tire.