Interactive display of results obtained from the inversion of logging data

What is claimed is: 1. A method to produce an interactive display of a plurality of model solutions obtained from a Monte Carlo inversion of electromagnetic logging data, the method comprising: (a) rotating an electromagnetic logging while drilling tool in a subterranean wellbore, the logging while drilling tool including at least one transmitting antenna and at least one receiving antenna deployed about a drill collar; (b) causing the electromagnetic logging tool to obtain the electromagnetic logging data while said rotating in (a), the electromagnetic logging data including a phase shift and an attenuation of electromagnetic energy transmitted between the transmitting antenna and the receiving antenna; (c) inverting the electromagnetic logging data obtained in (b) using a the Monte Carlo inversion to obtain the plurality of model solutions; (d) producing an interactive plot that includes a cross-section plot of one of the plurality of model solutions obtained from the Monte Carlo inversion in (c), the interactive plot further having a percentile scale plotted against a location parameter; (e) adjusting a position and shape of a percentile marker on the interactive plot, said adjusting operative to select a second one of the plurality of model solutions for a particular percentile indicated by the percentile marker; and (f) reproducing the interactive plot including the cross-section plot of the second one of the plurality of model solutions selected in (e); (g) estimating subsurface formation properties of the subterranean wellbore from the electromagnetic logging data using the cross-section plot of the second one of the plurality of model solutions selected in (e) obtained from the inversion of the electromagnetic logging data that includes the phase and the attenuation of the electromagnetic energy using the Monte Carlo inversion. 2. The method of claim 1 , wherein the percentile marker is a curve representing a best-fit solution or a polyline representing selected solutions. 3. The method of claim 1 , further comprising displaying one or more background colors/shadings on the interactive plot to indicate user-defined constraints have been applied. 4. The method of claim 1 , further comprising plotting uncertain features on the cross-section plot using fading. 5. The method of claim 1 , further comprising: (g) evaluating the plurality of model solutions using a clustering algorithm; (h) binning the plurality of model solutions into at least two distinct clusters; and (i) constructing histograms of each of the distinct clusters. 6. The method of claim 5 , further comprising: (j) overlaying a cross-section plot constructed from layered models belonging to a particular cluster on another cross-section plot. 7. The method of claim 1 , wherein the location parameter includes one of displacement, a function of displacement, a succession of measurement stations, or a function of a succession of measurement stations. 8. The method of claim 1 , wherein said adjusting the position and the shape of the percentile marker comprises using an interactor on the interactive plot. 9. The method of claim 1 , further comprising using the cross-section plot to estimate formation properties. 10. The method of claim 1 , further comprising post-processing inversion results from the Monte Carlo inversion using a priori knowledge. 11. The method of claim 1 , further comprising decomposing a posteriori distribution of the inversion of the electromagnetic logging data into a sum of Gaussian distributions and creating curves corresponding to a mean of each of those Gaussian distributions. 12. A system to estimate subterranean formation properties from electromagnetic logging data, comprising: a logging and control system located on or near the earth's surface; an electromagnetic logging while drilling tool deployed in a subterranean wellbore, the electromagnetic logging while drilling tool including at least one transmitting antenna and at least one receiving antenna deployed about a drill collar, the electromagnetic logging while drilling tool configured to obtain the electromagnetic logging data while rotating in the subterranean wellbore, the electromagnetic logging data including a phase shift and an attenuation of electromagnetic energy transmitted between the transmitting antenna and the receiving antenna; the logging and control system comprising a processor configured to: (i) invert the electromagnetic logging data using a Monte Carlo inversion to obtain a plurality of model solutions; (ii) produce an interactive plot that includes a cross-section plot of one of the plurality of model solutions obtained from the Monte Carlo inversion, the interactive plot further having a percentile scale plotted against a location parameter; (iii) accepting user-input and adjusting a position and shape of a percentile marker on the interactive plot, said adjusting operative to select a second one of the plurality of model solutions for a particular percentile indicated by the percentile marker; (iv) reproducing the interactive plot including the cross-section plot of the second one of the plurality of model solutions selected in (iii); (v) and estimating the subterranean formation properties using the cross-section plot of the second one of the plurality of model solutions selected in (iii) obtained from the inversion of the electromagnetic logging data that includes the phase and the attenuation of the electromagnetic energy using the Monte Carlo inversion. 13. The system of claim 12 , wherein the processor is integral to the logging and control system or is remote from, but in communication with, the logging and control system. 14. The system of claim 12 , wherein the electromagnetic logging while drilling tool obtains the electromagnetic logging data at various stations within the subterranean wellbore. 15. A method to estimate subsurface formation properties from electromagnetic logging data, comprising: (a) rotating an electromagnetic logging while drilling tool in a subterranean wellbore, the electromagnetic logging while drilling tool including at least one transmitting antenna and at least one receiving antenna deployed about a drill collar; (b) causing the electromagnetic logging while drilling tool to obtain the electromagnetic logging data while said rotating in (a), the electromagnetic logging data including a phase shift and an attenuation of electromagnetic energy transmitted between the transmitting antenna and the receiving antenna; (c) inverting the electromagnetic logging data obtained in (b) using a Monte Carlo inversion to obtain a plurality of model solutions; (d) producing an interactive plot that includes a cross-section plot of one of the plurality of model solutions obtained from the Monte Carlo inversion, the interactive plot further having a percentile scale plotted against a location parameter; (e) accepting user-input and adjusting a position and shape of a percentile marker on the interactive plot in response to the user-input, said adjusting operative to select a second one of the plurality of model solutions for a particular percentile indicated by the percentile marker; (f) reproducing the interactive plot including the cross-section plot of the one of the plurality of model solutions selected in (d); and (g) estimating the subsurface formation properties using the cross-section plot of the second one of the plurality of model solutions selected in (e) obtained from the inversion of the electromagnetic logging data that includes the phase and the attenuation of the electromagnetic energy using the Monte