Determination of formation dip/azimuth with multicomponent induction data

What is claimed is: 1. A method for measuring formation properties, the method comprising: obtaining a set of multicomponent induction data, representing layers of downhole formations, from a logging tool having an antenna arrangement that provides the set of multicomponent induction data as a function of tool position in a borehole through the layers of the downhole formations; performing inversion processing on the set of multicomponent induction data to determine a set of formation parameters for each of the layers; and updating at least a portion of the set of formation parameters for each of the layers based on formation anisotropic ratios of neighboring layers. 2. The method of claim 1 , wherein the step of performing inversion processing includes performing a radially one-dimensional inversion or performing a zero-dimensional inversion. 3. The method of claim 1 , wherein the set of formation parameters represent at least one of a set of horizontal resistivity, a set of vertical resistivity, a set of dips, and a set of azimuths. 4. The method of claim 1 , further comprising the step of generating a borehole correction log based on the determined set of formation parameters. 5. The method of claim 1 , further comprising the step of calculating a set of quality indicators for the set of formation parameters. 6. The method of claim 1 , wherein the step of updating at least a portion of the set of formation parameters includes renewing a formation dip parameter of a layer using formation dip parameters of neighboring layers. 7. The method of claim 1 , wherein the step of updating at least a portion of the set of formation parameters includes renewing a formation azimuth parameter of a layer using formation dip parameters of neighboring layers. 8. The method of claim 1 , wherein the step of updating at least a portion of the set of formation parameters includes renewing a formation dip parameter of a layer using formation anisotropic ratio parameters of neighboring layers. 9. The method of claim 1 , wherein the step of updating at least a portion of the set of formation parameters includes renewing a formation azimuth parameter of a layer using formation anisotropic ratio parameters of neighboring layers. 10. The method of claim 1 , wherein the step of updating at least a portion of the set of formation parameters is performed for a current layer in response to a determination that a formation anisotropic ratio or a formation dip of the current layer is lower than at least one of a neighboring layer's formation anisotropic ratio or a neighboring layer's formation dip. 11. A logging system, comprising: a logging tool having a longitudinal tool axis and a perpendicular tool axis, the tool having an antenna arrangement that provides, as a function of tool position in a borehole, a set of multicomponent induction data representing layers of downhole formations, and at least one processor; and a memory device containing instructions that when execute by the at least one processor perform operations including: performing inversion processing on the set of multicomponent induction data to determine a set of formation parameters for each of the layers; and updating at least a portion of the set of formation parameters for each of the layers based on formation anisotropic ratios of neighboring layers. 12. The logging system of claim 11 , wherein as part of performing the updating of at least a portion of the set of formation parameters, the at least one processor renews a formation dip parameter of a layer using formation dip parameters of neighboring layers. 13. The logging system of claim 11 , wherein as part of performing the updating at least a portion of the set of formation parameters, the at least one processor renews a formation azimuth parameter of a layer using formation dip parameters of neighboring layers. 14. The logging system of claim 11 , wherein as part of performing the updating at least a portion of the set of formation parameters, the at least one processor renews a formation azimuth parameter of a layer using formation anisotropic ratio parameters of neighboring layers. 15. The logging system of claim 11 , wherein as part of performing the updating at least a portion of the set of formation parameters, the at least one processor renews a formation dip parameter of a layer using formation anisotropic ratio parameters of neighboring layers. 16. The logging system of claim 11 , wherein the at least one processor updates at least a portion of the set of formation parameters for a current layer in response to a determination that a formation anisotropic ratio or a formation dip of the current layer is lower than at least one of a neighboring layer's formation anisotropic ratio or a neighboring layer's formation dip. 17. The logging system of claim 11 , wherein the at least one processor further calculates a set of quality indicators for the set of formation parameters. 18. An apparatus for measuring formation properties, comprising: a computing device, including, a display and a user interface, one or more processors, the one or more processors coupled to the display, and one or more memory devices coupled to the processors; and one or more programs stored in one or more of the memory devices, the one or more programs comprising instructions to cause the one or more processors to, obtain a set of multicomponent induction data representing layers of downhole formations; perform inversion processing on the set of multicomponent induction data to determine a set of formation parameters for each of the layers; and update at least a portion of the set of formation parameters for each of the layers based on formation anisotropic ratios of neighboring layers.