Acoustic signal processing using model-based adaptive filtering

What is claimed is: 1. A method of processing acoustic waveform data comprising: acquiring acoustic waveform data from an acoustic logging tool; determining an adaptive frequency filter, wherein determining the adaptive frequency filter comprises determining a lower bound of the adaptive frequency filter using a first polynomial function of a minimum excitement frequency parameter, a slowness parameter, and a third parameter; and determining an upper bound of the adaptive frequency filter using a second polynomial function of a peak excitement frequency parameter, the slowness parameter, and the third parameter; filtering the acoustic waveform data using the adaptive frequency filter; determining a formation slowness from the filtered acoustic waveform data; selecting a frequency band for exciting a formation based in part upon the adaptive frequency filter; exciting the formation using a wavelet within the selected frequency band by an acoustic source of the acoustic logging tool; and determining an increasing or decreasing trend in the formation slowness; and updating the adaptive frequency filter based in part upon the increasing or decreasing trend. 2. The method of claim 1 , wherein the first polynomial function and the second polynomial function are determined using the method of least squares. 3. The method of claim 1 , wherein the slowness parameter comprises a formation shear slowness. 4. The method of claim 3 , wherein the third parameter is selected from the group consisting of a tool type parameter, a borehole diameter parameter, a formation parameter, and a fluid property parameter. 5. The method of claim 1 , wherein the slowness parameter comprises a formation compression slowness. 6. The method of claim 5 , wherein the third parameter is selected from at least one of a tool type parameter, a borehole diameter parameter, a formation property parameter, and a fluid property parameter. 7. A method of processing acoustic waveform data comprising: acquiring from a log file acoustic waveform data generated by an acoustic logging tool; determining an adaptive frequency filter, wherein determining the adaptive frequency filter comprises determining a lower bound of the adaptive frequency filter using a first polynomial function of a minimum excitement frequency parameter, a slowness parameter, and a third parameter; and determining an upper bound of the adaptive frequency filter using a second polynomial function of a peak excitement frequency parameter, the slowness parameter, and the third parameter; selecting a frequency band for exciting a formation based in part upon the adaptive frequency filter; exciting the formation using a wavelet within the selected frequency band by an acoustic source of the acoustic logging tool; filtering the acoustic waveform data using the adaptive frequency filter; determining a formation slowness from the filtered acoustic waveform data; calculating an average formation slowness; and updating the adaptive frequency filter based in part upon the average formation slowness. 8. The method of claim 7 , wherein the first polynomial function and the second polynomial function are determined using the method of least squares. 9. The method of claim 7 , wherein the slowness parameter comprises a formation shear slowness. 10. The method of claim 7 , wherein the slowness parameter comprises a formation compression slowness.