System and method for estimating tire wear using acoustic footprint analysis

1 . A tire wear prediction method, comprising: collecting, via at least one data acquisition device mounted onboard a tire on a motor vehicle, signals corresponding to dynamic mechanical behavior of the tire; graphically constructing spectra comprising time and frequency content of the signals; implementing at least one model comprising predetermined spectra associated with an unworn version of the tire for comparison with the graphically constructed spectra for a footprint region of the tire; extracting one or more graphical features of the spectra associated with the footprint region of the tire as predefined indicators of stiffness change based on the comparison; estimating a tire wear state based on the extracted one or more graphical features; and selectively generating an output signal based on the estimated tire wear state. 2 . The method according to claim 1 , wherein the predetermined spectra associated with an unworn version of the tire are compared with the graphically constructed spectra for the footprint region of the tire using acoustic footprint analysis. 3 . The method according to claim 1 , wherein the extracted one or more graphical features comprise one or more of: a high frequency energy signature identified at the footprint region; a signal damping signature at a trailing edge of the footprint region; and an increased energy signature in a tread passage frequency band at the footprint region. 4 . The method according to claim 1 , wherein graphically constructing the spectra comprises deconvoluting the signals into respective time, frequency, and amplitude content. 5 . The method according to claim 4 , wherein the signals are deconvoluted via Short Time Fourier Transform analysis. 6 . The method according to claim 1 , wherein the at least one model is selected and retrieved for implementation based on a determined type of the tire. 7 - 13 . (canceled) 14 . A system for tire wear prediction, comprising: at least one data acquisition device mounted onboard a tire on a motor vehicle, and configured to generate signals corresponding to dynamic mechanical behavior of the tire; a computing device communicatively linked to the at least one data acquisition device to receive the generated signals there from, wherein the computing device is further configured to graphically construct spectra comprising time and frequency content of the signals, implement at least one model comprising predetermined spectra associated with an unworn version of the tire for comparison with the graphically constructed spectra for a footprint region of the tire, extract one or more graphical features of the spectra associated with the footprint region of the tire as predefined indicators of stiffness change based on the comparison, estimate a tire wear state based on the extracted one or more graphical features, and selectively generate an output signal based on the estimated tire wear state. 15 . The system of claim 14 , wherein the predetermined spectra associated with an unworn version of the tire are compared with the graphically constructed spectra for the footprint region of the tire using acoustic footprint analysis. 16 . The system of claim 14 , wherein the output signal is provided to a display unit for selective display of one or more indicia corresponding to the estimated tire wear state. 17 . The system of claim 14 , wherein the output signal is provided to a vehicle control unit for automated intervention in one or more vehicle control attributes based on the estimated tire wear state. 18 . The system of claim 14 , wherein the extracted one or more graphical features comprise one or more of: a high frequency energy signature identified at the footprint region; a signal damping signature at a trailing edge of the footprint region; and an increased energy signature in a tread passage frequency band at the footprint region. 19 . The system of claim 14 , wherein graphically constructing the spectra comprises deconvoluting the signals into respective time, frequency, and amplitude content. 20 . The system of claim 19 , wherein the signals are deconvoluted via Short Time Fourier Transform analysis. 21 . The system of claim 14 , further comprising one or more data storage media communicatively linked to the computing device and having stored thereon the at least one model for selective retrieval and implementation based on a determined type of the tire. 22 . A computing device for mounting onboard a motor vehicle, and configured to: receive, from at least one tire-mounted data acquisition device, generated signals corresponding to dynamic mechanical behavior of the tire; graphically construct spectra comprising time and frequency content of the signals; implement at least one model comprising predetermined spectra associated with an unworn version of the tire for comparison with the graphically constructed spectra for a footprint region of the tire; extract one or more graphical features of the spectra associated with the footprint region of the tire as predefined indicators of stiffness change based on the comparison; estimate a tire wear state based on the extracted one or more graphical features; and selectively generate an output signal based on the estimated tire wear state. 23 . The device of claim 22 , wherein the output signal is provided to a display unit for selective display of one or more indicia corresponding to the estimated tire wear state. 24 . The device of claim 22 , wherein the output signal is provided to a vehicle control unit for automated intervention in one or more vehicle control attributes based on the estimated tire wear state. 25 . The device of claim 22 , wherein the extracted one or more graphical features comprise one or more of: a high frequency energy signature identified at the footprint region; a signal damping signature at a trailing edge of the footprint region; and an increased energy signature in a tread passage frequency band at the footprint region. 26 . The device of claim 22 , wherein graphically constructing the spectra comprises deconvoluting the signals into respective time, frequency, and amplitude content. 27 . The device of claim 26 , wherein the signals are deconvoluted via Short Time Fourier Transform analysis.