Time-based processing of broadband borehole acoustic data

What is claimed is: 1. A method of improving time-semblance processing of acoustic data comprising: obtaining acoustic data from a tool in a formation; designing a delay filter, wherein the designing the delay filter comprises: determining a delay frequency characteristic associated with a source excitation for a formation property; determining a worst case frequency delay characteristic for a set of formation properties, wherein the worst case frequency delay characteristic is based on a separation frequency characteristic, wherein the separation frequency characteristic is based on the delay frequency characteristic; determining a target delay frequency characteristic; determining a required delay frequency using the delay frequency characteristic associated with a source excitation, the worst case frequency delay characteristic for the set of formation properties and the target delay frequency characteristic; and designing a filter that can produce the required delay frequency; applying the delay filter to the obtained acoustic data to obtain delayed acoustic data, wherein the delay filter produces a delay difference between a high frequency component of the obtained acoustic data and a low frequency component of the obtained acoustic data; applying time semblance to the delayed acoustic data to obtain a frequency-semblance-like time-semblance image; and producing the frequency-semblance-like time-semblance image. 2. The method of claim 1 , wherein the delay filter is selected from a group consisting of an analog filter and a digital filter. 3. The method of claim 1 , further comprising visualizing an image of the delayed acoustic data and inspecting the image for at least one of quality control, diagnostics and dispersive behavior. 4. The method of claim 1 , further comprising eliminating noise effects from the delayed acoustic data to obtain a clean signal, wherein eliminating noise effects from the delayed acoustic data comprises applying at least one of time-slowness-windowing, band-pass filtering and filtering in depth dimension. 5. The method of claim 1 , further comprising processing the delayed acoustic data, wherein processing the delayed acoustic data comprises at least one of measuring slowness, measuring slowness dispersion, determining a semblance value for slowness, and determining a Variable Density Log. 6. The method of claim 5 , further comprising processing the delayed acoustic data using a time-semblance algorithm to produce a two dimensional time-slowness image. 7. The method of claim 1 , wherein obtaining acoustic data from a tool in the formation comprises exciting a first source in the tool to generate a first signal and obtaining acoustic data at a receiver. 8. The method of claim 7 , wherein the delay filter equalizes data delay to that of a second source excitation, further comprising processing the delayed acoustic data using a processing algorithm, wherein the processing algorithm is directed to the second source excitation. 9. A method of analyzing a formation comprising: placing a tool in a borehole in the formation; wherein the tool comprises a transmitter and at least one receiver; generating a signal from the transmitter; receiving a signal at the at least one receiver; designing a delay filter, wherein the designing the delay filter comprises: determining a delay frequency characteristic associated with a source excitation for a formation property; determining a worst case frequency delay characteristic for a set of formation properties, wherein the worst case frequency delay characteristic is based on a separation frequency characteristic, wherein the separation frequency characteristic is based on the delay frequency characteristic; determining a target delay frequency characteristic; determining a required delay frequency using the delay frequency characteristic associated with a source excitation, the worst case frequency delay characteristic for the set of formation properties and the target delay frequency characteristic; and designing a filter that can produce the required delay frequency; applying the delay filter to the received signal to obtain a delayed signal, wherein the delay filter produces a delay difference between a high frequency component of the received signal and a low frequency component of the received signal; and applying time semblance to the delayed signal to obtain a frequency-semblance-like time-semblance image; and producing the frequency-semblance-like time-semblance image. 10. The method of claim 9 , further comprising digitizing the received signal before applying the delay filter. 11. The method of claim 9 , wherein the received signal is indicative of at least one of mud compressional slowness within the borehole, mud density within the borehole, borehole radius, formation compressional slowness, formation shear slowness and formation density. 12. The method of claim 9 , wherein the delay filter is designed to provide at least one of a phase delay and a group delay. 13. The method of claim 9 , wherein designing the filter that can produce the required delay frequency comprises using at least one of an analytical expression, a deconvolution of a first signal from a second signal of different delay, and an all-pass filter. 14. The method of claim 9 , wherein designing the filter that can produce the required delay comprises: determining a set of filter coefficients; creating a filter set comprising a set of base filters created using the set of filter coefficients and a reversed version of the set of base filters; determining a delay function associated with each base filter in the set of base filters; populating an application set with one or more base filters from the filter set that minimize a difference between total delay in the application set and the required delay frequency; and determining an impulse response associated with the one or more base filters in the application set. 15. The method of claim 9 , further comprising: determining a total delay frequency characteristic associated with a formation property; determining a total delay slowness characteristic associated with the formation property; and using the total delay frequency characteristic associated with the formation and the total delay slowness characteristic associated with the formation to determine at least one of a window in time-slowness for the formation property, a map from time slowness to time dispersion corrected slowness, a map from time slowness to quasi-frequency slowness, and a map from time-slowness to quasi-frequency-dispersion corrected slowness. 16. A method for analyzing a formation comprising: generating, by a transmitter of an acoustic tool, a signal into a borehole; receiving the signal at a receiver of the acoustic tool; designing a delay filter, wherein the designing the delay filter comprises: determining a delay frequency characteristic associated with a source excitation for a formation property; determining a worst case frequency delay characteristic for a set of formation properties, wherein the worst case frequency delay characteristic is based on a separation frequency characteristic, wherein the separation frequency characteristic is based on the delay frequency characteristic; determining a target delay frequency characteristic; determining a required delay frequency using the delay frequency characteristic associated with a source excitation, the worst case frequency delay characteristic for the set of formation properties and the target delay frequency characteristic; and